KR20140110464A - Method and apparatus relating generation, supply, and utilization of green electricity and materials - Google Patents

Abstract

The present invention relates to a method and an apparatus for generating, supplying, and using green electricity and green materials. According to the present invention, at least one of a rotor, a path, a rotor path, a partition membrane path, a venturi, a rotor venturi, a partition membrane venturi, an outer circumferential flow path, a rotor outer circumferential flow path, a partition membrane outer circumferential flow path, an inlet guide, an outlet guide, a vane membrane, a rotary power generation apparatus, a rotary compression apparatus, a rotary negative pressure apparatus, a rotary compression-negative pressure apparatus, a compression space, and a negative pressure space generates at least one of electricity, a compression material, and a negative pressure material; at least one of a general compression apparatus and a general negative pressure apparatus generates at least one of the compression material and the negative pressure material using the generated electricity; at least one of a compression power generation apparatus, a negative pressure power generation apparatus, and a compression-negative pressure power generation apparatus generates the electricity using at least one of the generated the compression material and the negative pressure material; and at least one of an electricity supply apparatus, a compression material supply apparatus, a negative pressure material supply apparatus, an electricity-compression material supply apparatus, an electricity-negative pressure material supply apparatus, and a compression-negative pressure material supply apparatus supplies at least one of the generated electricity, the compression material, and the negative pressure material to a target object or a target place formed to be liquid, gaseous, and solid in order to perform at least one of aeration, mixing, circulation, convection, ice-making, injection, extraction, extraction-injection, an aerobic treatment, an anaerobic treatment, cleaning, floating, removal, heating, decomposition, cohesion, precipitation, and purification on the target object or the target place.

Description

FIELD OF THE INVENTION The present invention relates to a method and apparatus for generating,

The present invention relates to a method and apparatus for the generation, supply and utilization of green electricity and green materials using green energy.

Recently, green energy use, green energy, green growth, prevention of global warming, and sustainable development are becoming a hot topic in Korea as well as in the world. Therefore, technologies for producing electricity using green energy such as solar, wind, geothermal, and tidal power have been developed. These green energies are economical and endless energy sources. However, in the fields of water treatment, water treatment and purification, commercial energy is used rather than green energy.

Therefore, based on the revival of the times, it is possible to generate electricity, compressed air and vacuum by using green energy such as fluid, wind, water, wind force and water power, and apply it to water treatment, Green energy, green energy development, green growth, prevention of global warming, and sustainable development. At present, a technique for generating electricity only in a rotating body rotated by hydraulic power, wind power, or the like is being developed. Therefore, in order to generate various green materials, it is required to develop a technique for generating not only electricity but also negative substances such as compressed air, vacuum, etc. in a rotating rotating body.

Therefore, in the present invention, not only the rotating body but also the electric, compressed material, and negative pressure material are formed by various constituent devices by combining the passages, the venturi, and the outer circumferential flow path and supplies at least one of the generated electricity, compressed material and negative pressure material to the object or target And to design a technique to treat the object or subject by aeration, mixing, circulation, convection, coagulation, sedimentation, and purification.

In order to solve the above-mentioned problems, it is an object of the present invention to provide a centrifugal separator for a centrifugal separator, including a rotor, a passage, a rotor passage, a diaphragm passage, a venturi, a revolving venturi, a diaphragm venturi, Compressing material, and negative pressure material by at least one of an inlet guide, an outlet guide, a blade opening, a rotary generator, a rotary compressor, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, A liquid, a vapor, or a solid phase constituting the object or the object itself or the object or object by the supply of at least one of electricity, compressed electricity, compressed electricity, Mixing, circulating, convection, deicing, injecting, extracting, extracting, injecting, expelling, or suspending the contaminants present or contained in the object or object Of, cleaning, flotation, to remove, heat coagulation, precipitation, purification is to devise a plan to process the one or more than one.

As a means for solving the problems set in the present invention, it is possible to provide a rotor, a passage, a rotor passage, a diaphragm passage, a venturi, a revolving venturi, a diaphragm venturi, an outer circumferential passage, a circumferential outer circumferential passage, Generating at least one of electricity, a compressed material, and a negative pressure material by at least one of a start-up, a rotary power generation device, a rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space and a negative pressure space, A negative pressure generating device, a compression negative pressure generating device, and a negative pressure generating device, using at least one of a compressed material and a negative pressure material by at least one of a general compression device and a general negative pressure device, And at least one of the generated electricity, compressed material, and negative pressure material is supplied to at least one of an electric supply device, a compressed material supply device, a negative pressure material supply device, The supply of the object or object to the object or object covered by at least one of liquid, vapor, and solid phase by at least one of a vagina supply device, an electric negative pressure material supply device and a compressed negative pressure material supply device, Mixing, circulation, convection, de-icing, injection, extraction, extraction injection, aerobic, anaerobic, cleaning, floatation, removal of at least one of liquid, gaseous, and solid phases constituting , Heating, decomposition, coagulation, sedimentation, and purification.

The effects of the present invention are as follows. 1) It generates electricity, compressed materials, and negative pressure materials by using green energy such as fluid, wind, water, wind force, and hydraulic power. Therefore, unlike conventional commercial use, green energy utilization, green energy development, green growth, prevention of global warming, sustainability It contributes greatly to development. 2) Utilizing economical and unlimited energy sources to generate electricity, compressed and negative materials. 3) It provides the effect of generating not only electricity but also negative materials such as compressed air and vacuum in the rotating rotating body. 4) It provides the effect of generating electricity, compressed material, and negative pressure material in various configurations by combining passages, venturi, and outer flow path as well as the rotating body. 5) It provides the effect of generating electricity by using the generated compressed material and negative pressure material. 6) Aeration, mixing, circulation, convection, de-icing, injection, extraction, extraction injection, aerobic, anaerobic cleaning, flotation, removal, heating, It provides the effect of treating with one or more of decomposition, aggregation, precipitation, purification.

1 is a schematic diagram showing a method for generating, supplying, and using green electricity and green material by combination of a rotating body, a diaphragm passage and a venturi according to the present invention.
Figure 2 is a schematic diagram illustrating an apparatus for the generation, supply, and use of green electricity and green materials according to claim 2;
Figure 3 is a schematic diagram illustrating an apparatus for the generation, supply, and use of green electricity and green materials according to claim 3;
FIG. 4 is a schematic diagram showing an apparatus for producing, supplying, and using electricity, compressed material, and negative pressure material according to the present invention.
FIG. 5 is a schematic diagram showing a method of spraying a certain substance loaded on a moving object according to the present invention onto an object or a target using a compression material
Fig. 6 is a schematic diagram showing the odor stabilization and selective soil erosion according to the present invention
FIG. 7 is a schematic view showing that a constituent for generating electricity, a compressed substance, and a negative pressure material according to the present invention is mounted on a glue body or installed in a glide-
8 is a schematic diagram showing that a constituent for generating electricity, a compressing substance and a negative pressure substance according to the present invention is installed in an underwater form
9 is a schematic view showing the configuration of a rotating body, a passage, a venturi, etc. according to the present invention
10 is a schematic diagram showing the configuration of a rotating body, a rotating body passage, a rotating body venturi, etc. according to the present invention
11 is a schematic view showing the configuration of a rotating body, a diaphragm passage, diaphragm venturi, etc. according to the present invention
Fig. 12 is a schematic diagram showing a configuration of a rotating body, a diaphragm passage, a diaphragm venturi, a compression power generator, a negative pressure generator, etc. according to the present invention
13 is a schematic diagram showing the configuration of a rotating body, a diaphragm passage, diaphragm venturi, a compression negative pressure generator, etc. according to the present invention
Fig. 14 is a schematic diagram showing the details of the compression power generation device, the negative pressure power generation device, and the compression negative pressure power generation device according to the present invention
Fig. 15 is a schematic view showing the opening and opening of the blade according to the present invention
16 is a schematic view showing a rotary electric generator, a rotary compressor, and a rotary negative pressure device provided in the outer peripheral flow path of the rotary body according to the present invention,
17 is a schematic view showing details of the rotary power generation device, the rotary compression device, and the rotary negative pressure device according to the present invention
18 is a schematic view showing the details of the rotary compression apparatus and the rotary negative pressure apparatus according to the present invention
19 is a schematic diagram showing the supply of electricity, compression material, and negative pressure material produced by the present invention
FIG. 20 is a schematic diagram showing a circulation process of an object or a target subject by supplying electricity, a compressed material, and a negative pressure material generated by the present invention
21 is a schematic view showing an example of the installation of the disperser according to the present invention
Fig. 22 is a schematic diagram showing green energy according to the present invention
23 is a schematic view showing a passage, a venturi, an orifice, an extension passage, a wired passage,
24 is a schematic view showing a rotary compression negative pressure apparatus according to the present invention
25 is a schematic view showing a drop aeration according to the present invention

The present invention relates to a rotating body, a passage, a rotating body passage, a diaphragm passage, a venturi, a rotating body venturi, a diaphragm venturi, an outer diaphragm, a rotating body outer diaphragm, a diaphragm outer diaphragm, Compressing material, and negative pressure material by at least one of a compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space, and using the generated electricity, At least one of a compression material and a negative pressure material by at least one of a compression power generation device, a negative pressure power generation device and a compression negative pressure power generation device using at least one of the generated compression material and negative pressure material, And at least one of the generated electricity, compressed material, and negative pressure material is supplied to an electric supply device, a compressed material supply device, a negative pressure material supply device, an electrically compressed material supply device, And a compressed or uncompressed material supply device for supplying the compressed or uncompressed material to the object or the object including at least one of liquid, vapor, and solid, and supplying the object or the object itself or the liquid, vapor, Or a pollutant present in or contained in the object or the target site is aeration, mixing, circulation, convection, deicing, injection, extraction, extraction injection, exhalation, anaerobic cleaning, floatation, removal, heating, decomposition, , ≪ / RTI > and purification of the green electricity and green materials.

Below, we will describe each claim in detail. Claim 1 relates to a method for producing one or more of electricity, compressed matter, and negative pressure material by rotating a rotating body by at least one of fluid, wind, water, wind force, hydraulic force, (3), (1), (2), (3), (3), (3), (4) and (5) to generate at least one of the compression substance and the negative pressure substance by using electricity generated in at least one of (2) (4), (1), (2), (3), or (4) to generate electricity using at least one of a compression material, a negative pressure material, (5) Supplying at least one of electricity, compressed material, and negative pressure material to an object or object made up of at least one of liquid, vapor, and solid, and supplying the object or object itself, or the liquid, vapor, One or more of the solid phases, or contaminants present or contained in the object or target, (6) one or more of mixing, circulation, convection, deicing, injection, extraction, extraction injection, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation, Characterized in that it relates to the production, supply and utilization of green electricity and green materials.

(1), (2), (3), (4), (5) and (6) (1), (2), (3), (4), (5), and (6) (1), (2), (3), (4), (5), and (6) are all the greatest. One, two, three, four, five, or six of (1), (2), (3), (4), (5), or (6) depending on field conditions or applicable conditions. In an embodiment where all six are performed, one or more of electricity, compressed material, and negative pressure material is created by rotating the rotating body by at least one of fluid, wind, water, wind force, hydraulic force, Generating at least one of a compressed material and a negative pressure material using electricity generated by at least one of (1), (2), (1), (2) (4), (1), (2), (3), (4), and (5) are generated by using at least one of a compression material and a negative pressure material generated from at least one of (5) supplying at least one of electric, compressive, and negative pressure materials generated from at least one of the above-mentioned materials (1), One or more of liquid, vapor, and solid constituting the object or the object, Treatment of at least one of the existing or contained contaminants with at least one of aeration, mixing, circulation, convection, de-icing, injection, extraction, extraction, aerating, anaerobic, cleaning, floatation, heating, decomposition, flocculation, 6).

Claim 1 also includes the following. The present invention relates to a method of producing at least one of electricity, compressed material, negative pressure material by rotating a rotating body by at least one of fluid, wind, water, wind force, hydraulic force, Generating electricity using at least one of the generated compressed material and negative pressure material; generating electricity using at least one of the generated compressed material and the negative pressure material; , At least one of liquid, vapor, and solid constituting the object or the target site or the object or target site by supplying the at least one of the negative and negative pressure materials to at least one of liquid, It can be used to aerate, mix, circulate, convective, de-icing, injecting, extracting, extracting, expelling, anaerobic, cleaning, Equipment for the generation, supply, and utilization of green electricity and green materials that do at least one of heating, decomposition, coagulation, sedimentation, purification, and so on. Here, the ratio of the energy source and the power source for rotating the rotating body in the rotating body rotated by at least one of fluid, wind, water, wind force, hydraulic force, tidal force, and wave power is 0 to 100% . For example, if the components are wind power, hydro power, tidal force, and wave power, the energy source ratio is 40% for wind, 30% for hydraulic, 20% for tidal force, 10% for wave and 100% for total.

Claim 2 of the present invention relates to a method of manufacturing a solar battery, comprising the steps of: 1) generating at least one of electricity, compressed matter, and negative pressure material by rotating a rotating body by at least one of fluid, wind, water, wind force, hydraulic force, 3) generate one or more of the compressed and / or negative materials using the generated electricity in addition to 1) or 2), or 4) generate 1) or 2) or 3) And 5) generating electricity using at least one of the generated compression material and negative pressure material in addition to 1) or 2) or 3) or 4) 6) Supply the object or the object itself or the object or the object by the supply in addition to 1) or 2) or 3) or 4) or 5) The constituent liquid, vapor, The method according to any one of claims 1 to 3, wherein the at least one contaminant is present in at least one of the two or more phases, or the contaminants present or contained in the object or the target are aerated, mixed, circulated, convected, Characterized in that it is treated with one or more of the following: agglomeration, precipitation, purification.

Claim 3 is directed to a method of generating at least one of electricity, compressed material, negative pressure material by rotating a rotating body by at least one of fluid, wind, water, wind force, hydraulic force, Generating electricity using at least one of the generated compressed material and negative pressure material; generating electricity using at least one of the generated compressed material and the negative pressure material; , At least one of liquid, vapor, and solid constituting the object or the target site or the object or target site by supplying the at least one of the negative and negative pressure materials to at least one of liquid, Aeration, mixing, circulation, convection, de-icing, injection, extraction, extraction injection, exhalation, anaerobic, cleaning, floatation, removal , Heating, decomposition, coagulation, sedimentation, purification, or the like.

The rotating body 10, the passage 11, the rotating body passage 12, the diaphragm passage 12, and the diaphragm passage 12, which generate at least one of the electricity 5, the compressed substance 6 and the negative pressure substance 7 by the rotating rotating body, The venturi 14, the venturi 15, the diaphragm venturi 16, the outer circumferential passage 17, the circumferential outer circumferential passage 18, the diaphragm outer circumferential passage 19, the inlet guide 20, The rotary compression device 24, the rotary negative pressure device 25, the rotary compression negative pressure device 24, the compression space 26, the negative pressure space 27 , The rotating body being a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a wheelbarrow, a wing car, a windmill, , Common with wing, common with spiral, cone with wing, cone with spiral, wing attachment, cone with spiral, cone with wing, cone with spiral, cone with wing, cone with wing, cone with wing It is one of top, spiral attachment top, wing attachment funnel, spiral attachment funnel,

Generating electricity by at least one of the sunlight and the solar heat is performed by at least one of a solar power generation device and a solar thermal power generation device and the generated electricity is used to generate at least one of a compression material and a negative pressure material At least one of a compression power generation device, a negative pressure generation device, and a compression negative pressure generation device, which is performed by at least one of a general compression device and a general negative pressure device, and which generates electricity using at least one of the generated compression material and negative pressure material And supplying the at least one of the generated electricity, compressed material, and negative pressure material to an object or a target composed of at least one of a liquid phase, a vapor phase, and a solid phase includes an electric supply device, a compressed material supply device, a negative pressure material supply device, A compression material supply device, an electric negative pressure material supply device, a compression negative pressure material supply device,

Wherein the aeration is performed by at least one of an electric aeration, a compression aeration, a negative pressure aerator, a rotary braking device, a falling aerator, and a floating aerator, One or more of liquid, vapor, and solid constituting the object or the target site itself or the target or target site by at least one of an electric aeration, a compression aeration, a negative pressure aerator, a rotary bomber, a drop aeration, And the circulation is performed by supplying at least one of electricity, compression material, a certain substance 1, a negative pressure substance and a certain substance 2 to the object or the object, or an electric aeration, a compression aeration, a negative pressure aerator, Aeration, and aeration aeration to perform circulation of at least one of a liquid phase, a vapor phase, and a solid phase constituting the object or the object, Wherein the ice making is performed by at least one of electric ice making, compression ice making, and negative pressure ice making, and the injection is performed by at least one of electric injection and compression injection, A hose 2, a side wall 2, a side wall 3, a side wall 3, a side wall 3, a side wall 3, a side wall 2, Line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of a pipe or a hollow pipe, and the liquid or vapor phase or solid phase present or contained in the object or object , Leachate, polluted water, pollutant, gas, odor, odor through at least one of a pipe or a hollow pipe , And the extraction injection A hose 2, a side wall 2, a side wall 3, a side wall 3, a side wall 3, a side wall 3, a side wall 2, Line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of a pipe or a hollow pipe, and the liquid or vapor phase or solid phase present or contained in the object or object Extracting at least one of leachate, contaminated water, pollutant, gas, odor, and smell, and re-injecting the extracted extract or one or more of the predetermined substances 1 to the object or target site through one or more of the other pores And the aerobic unit is performed by at least one of an electric unit and a compressor unit, and the anaerobic unit is one of liquid, vapor, and solid A negative pressure or a vacuum is supplied through the hose 2 itself or at least one of the pipe and the hollow pipe connected to the hose 2 to extract the gas present or contained in the object or the object, Wherein the cleaning is performed by at least one of a compression cleaning and a negative pressure cleaning, and the float is performed by at least one of electrophoresis, compression float, and negative pressure float , And the removal is performed by at least one of contaminants removal, sediment removal, suspension removal, algae removal, red tide removal, and green tide removal, and the heating is performed by at least one of electric heating, hot air heating and hot water heating, The degradation is carried out by at least one of electrolysis, aerobic decomposition and anaerobic decomposition, , Compression agglomeration, and the sedimentation is carried out by precipitating or sedimenting the electro-agglomerated or compressed agglomerated agglomerates to the bottom or bottom of the object or subject, wherein the aeration is carried out by aeration, mixing, circulation, convection, The object or object itself is purified by at least one of deicing, injection, extraction, extraction injection, aerobic, anaerobic, cleaning, floatation, removal, heating, Characterized in that it is carried out by purifying one or more of the solid phases, or by purifying contaminants which are present or contained in the object or the object, and to devices for the production, supply and utilization of green electricity and green materials.

According to the third to twelfth aspects of the present invention, the rotating body rotated by at least one of fluid, wind, water, wind force, hydrostatic force, tractive force and wave force, a blade opened at the outer periphery of the rotating body, At least one of venturi, revolving venturi, diaphragm venturi, venturi at the opposite side of the inlet, venturi at the entrance, diaphragm venturi At least one of an outlet guide connected to one or more outlets, a rotary body, a rotary power generator connected to the rotary venturi, a rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space in front of the diaphragm venturi diaphragm, At least one of a compression power generation device, a negative pressure power generation device, and a compression negative pressure generation device mounted on at least one of negative negative pressure space, compression space, negative pressure space, venturi, An inlet guide connected to an inlet of one or more of venturi, revolving venturi, diaphragm venturi, venturi, revolving venturi, diaphragm venturi Connected to at least one of an outlet guide connected to one or more outlets, an electric power supply connected to at least one of an outlet generator, a rotary power generator, a compression power generator, a negative pressure generator, a compression negative pressure generator, One of a negative pressure material supply device connected to at least one of a compressed material supply device, a rotary negative pressure device, a rotary compression negative pressure device, a venturi, a negative pressure space, and an outlet guide, a rotary power generation device, a compression power generation device, a negative pressure generation device, And an electric compression material supply device connected to at least one of an inlet guide, a rotary compression device, and a compression space, a rotary power generation device, a compression power generation device, And at least one of an electric vacuum material supply device connected to at least one of a rotating negative pressure device, a rotary compression negative pressure device, a venturi, a negative pressure space, and an outlet guide, an inlet guide, a rotary compression device, and a compression space And a compressed negative pressure material supply device connected to at least one of a rotary negative pressure device, a rotary compression negative pressure device, a venturi, a negative pressure space, and an outlet guide.

Here, the wind force is the force or energy of the wind, the water power is the water, the power or the energy of the fall, the tide is the tide, the tide is the tide force or energy, In this case, all of wind, hydro, tidal and wave power can be obtained at a certain point such as ocean, coast, dam, river, lake where all of these energy can be obtained. It can be a certain point that can obtain each of them. For example, wind energy can be applied to windy fields, oceans, rivers, lakes, cities, rural areas, fishing villages, etc. The solar power can be anywhere in the sun, , Rivers, dams, lakes, and so on. Tidal power can be applied to coasts with tidal currents. Wave power can be applied to ocean, sea, and rivers with waves.

As shown in FIG. 2, the rotating body, the blade opening, the inlet guide, the venturi, the rotary venturi, the diaphragm venturi, the outlet guide, the rotary power generator, the rotary compression device, the rotary negative pressure device, , A compression space, a negative pressure space, a compression power generation device, a negative pressure power generation device, a compression negative pressure generation device, an outer circumferential flow path, a circumferential outer circumferential flow path, a diaphragm outer circumferential flow path, an electricity supply device, a compressed substance supply device, Device, an electric negative pressure material supply device, and a compressed negative pressure material supply device. In this case, three rotating bodies 10 are rotated by at least one of fluid, wind, water, wind force, hydraulic force, tidal force and wave force, and blade openings 22 are mounted on the outer periphery of three rotating bodies Here, the three rotating parts constitute three openings 22-1 of the blade opening, where the wing film increases the fluid or the like flowing into the rotating body, and three Three inlet guides 20 wide in the funnel shape are connected to the outer periphery of the rear face of the rotating body, wherein the three inlet guide wide side portions are located in the three opening portions 22-1 of the three outer circumferential blade openings The entrance of the venturi 15, the revolving venturi 16 and the diaphragm venturi 17 are respectively connected to the narrow side of the three inlet guides on the opposite side of the wide side, and the venturi, the revolving venturi, Three outlets of the outlet guides 21 are connected to one or more of the outlets, A rotary compression device 24, a rotary negative pressure device 25 and a rotary compression negative pressure device 245 are sequentially connected to the whole body 10 and a rotary generator (not shown) is connected to the rotary venturi 15. [ 23, a rotary compression device 24, a rotary negative pressure device 25 and a rotary compression negative pressure device 245 are sequentially connected, a compression space 26 is formed in the front part of the inner diaphragm of the diaphragm venturi 16, A negative pressure space 27 is formed in the rear part of the inner diaphragm of the diaphragm venturi wherein the compression space 26 and the negative pressure space 27 are formed by a diaphragm 29 provided inside the diaphragm venturi 16, The compression power generation device 40 is connected to the compression space 26 formed in the front part of the inner diaphragm of the diaphragm ventilator 16 and the negative pressure generation device 41 is connected to the negative pressure space 27 formed in the rear part of the inner diaphragm of the diaphragm venturi 16. [ And the compression negative pressure generator 42 is connected to the compression space 26 formed in the front portion of the inner diaphragm of the diaphragm venturi 16 and the diaphragm rear portion and the negative pressure space 27 One of the outer circumferential flow path 17 and the circumferential outer circumferential flow path 19 is provided on the outer periphery of the venturi 15 and the outer circumferential flow path is formed on the outer circumferential surface of the rotating venturi 16, One of an outer circumferential passage, a circumferential outer circumferential passage and a diaphragm outer circumferential passage is provided on the outer periphery of the diaphragm venturi 17 and then a venturi 15, a revolving venturi 16, The inlet guide 20 is connected to the inlet of at least one of the diaphragm ventilators 17 and then the outlet guide 21 is connected to the outlet of at least one of the venturi, the rotary venturi and the diaphragm venturi, The electric power supply device 50 is connected to at least one of the compression power generation device 40, the negative pressure generation device 41 and the compression negative pressure power generation device 42, and then the inlet guide, the rotary compression device, The compression material supply device 51 is connected to the above, and then the rotary negative pressure device, the rotary compression negative pressure device, the venturi, A negative pressure material supply device 52 is connected to at least one of a space and an outlet guide, and then at least one of a rotary power generation device, a compression power generation device, a negative pressure generation device and a compression negative pressure generation device, And at least one of a rotary power generation device, a compression power generation device, a negative pressure generation device, and a compression negative pressure generation device, and a rotary negative pressure device, a rotary compression negative pressure device, a venturi, An electric vacuum material supply device 54 is connected to at least one of the space and the outlet guide, and then at least one of the inlet guide, the rotary compression device, the compression space and the rotary negative pressure device, the rotary compression negative pressure device, the venturi, And a compressed negative pressure material supply device 55 is connected to at least one of the guides.

It consists of 1) at least one of a rotating body, a blade opening, an inlet guide and a venturi, a revolving venturi, a diaphragm venturi, an outlet guide and a rotary power generator, a rotary compressor, a rotary negative pressure device, And at least one of a compression space, a negative pressure space and a compression power generation device, a negative pressure generation device, a compression negative pressure generation device and at least one of an outer circumferential flow path, a circumferential outer circumferential flow path, and a diaphragm outer circumferential flow path, 2) rotating body, blade opening, inlet guide, venturi, outlet guide, rotary power generator, compression space, negative pressure space, , A compression power generation device, an outer flow path, an electric power supply device, a compressed material supply device, a negative pressure material supply device, an electrically compressed material supply device, an electric negative pressure material supply device, 3) Rotating body, blade opening, inlet guide, revolving venturi, outlet guide, rotary compression device, compression space, negative pressure space, negative pressure generator, rotating body outer flow passage, electric supply device, compressed substance supply device, 4) Rotary body, blade opening, inlet guide, outlet guide, venturi, rotary power generator, rotary compression device, rotary negative pressure device, electric compressible substance supply device, electric negative pressure substance supply device, , A rotary compression negative pressure device, an electric supply device, a compressed substance supply device, a negative pressure substance supply device, an electric compression substance supply device, an electric negative pressure substance supply device, a compression negative pressure substance supply device, An inlet guide, an outlet guide, a venturi, a rotary generator, a rotary compressor, a rotary negative pressure device, a rotary compression negative pressure device, an electric supply device, a compressed substance supply device, a negative pressure substance supply device, , Entrance guide, exit 7) Rotor, inlet guide, outlet guide, venturi, rotary compression device, compression material, and other materials. 7) Rotor, inlet, ventricle, rotary compression device, rotary compression device, rotary compression device, compressed material supply device, And a feeding device, and the like.

In the present invention, fluid, wind, water, wind force, hydraulic force, tidal force, and wave force are green energy, and fluid is a flowing object, wind is wind, water is water, wind force is wind force, , Tidal force is tidal force, and wave power is wave force. Herein, at least one embodiment of the green energy, fluid, wind, water, wind, hydraulic, tidal force, or wave power is selected from the group consisting of 1) fluid, 2) wind, hydraulic, tidal, 5) wind force and tidal force, 6) wind force and wave force. Here, the graphical representation of the wind power 340, the hydraulic power 341, the tidal force 342, and the wave power 343 is as shown in the schematic diagram of the green energy according to the present invention shown in FIG.

According to another embodiment of the present invention, there is provided a rotary body 10, a diaphragm passage 13 provided on the rear surface of the rotary body and the rotary body, an inlet guide provided on the rear surface of the rotary body and the rotary body, Compressible material 6 and negative pressure material 7 by using a constituent composed of one of the venturi 14 with a guide and one or more of the generated, (30) and a general negative pressure device (31) to generate at least one of a compression material (6), a negative pressure material (7) , At least one of the generated electricity, compressed material, and negative pressure material is generated by at least one of the compression power generation device (40), the negative pressure generation device (41), and the compression negative pressure power generation device (42) Into one or more of liquid, vapor, and solid phases. Mixing, circulating, convection, de-icing, and / or circulating a contaminant present in or contained in a liquid or a vapor phase or a solid phase constituting an object or a target site, Treatment of at least one of injection, extraction, extraction injection, exhalation, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation and purification. In the present invention, one or more of producing, externally providing represents one or more of those produced by the present invention, provided externally, which may be one of three things: produced, externally provided, .

In the present invention, the rotating body is characterized by rotating by the green energy such as fluid, wind, water, wind force, hydraulic force, tidal force, and wave power. Therefore, electricity generated by using green energy becomes green electricity, and compressed material and negative pressure material produced by using green energy become green materials. The constructing body for generating at least one of the electricity (5), the compressed material (6) and the negative pressure material (7) according to claims 3 to 12 includes a rotating body (10), a diaphragm passage (13) , And a venturi (14) with an inlet guide and an outlet guide installed on the rear surface of the rotating body and the rotating body. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram illustrating a method for producing, supplying, and using a green electricity and green material according to claims 3 to 12. Referring to Fig. 1, claims 3 to 12 will be described. Here, the diaphragm passage provided on the rear surface of the rotating body and the rotating body has a structure in which the diaphragm passage is combined with the rotating body and the diaphragm passage is provided on the rear surface of the rotating body. Here, the venturi with the inlet guide and the outlet guide installed on the rear surface of the rotating body and the rotating body is a combination of the rotating body and the venturi, and the venturi 14, to which the inlet guide 20 and the outlet guide 21 are attached, And has a structure in which an inlet guide is connected to the rear surface of the rotating body, a venturi is connected next, and an outlet guide is connected next.

Here, the diaphragm passage 13 is a passage provided with a diaphragm, and the fluid 1 such as wind, water or the like which passes through the rotary body is clogged by the diaphragm, so that the front portion of the diaphragm becomes the compression space 26, And a negative pressure space 27 such as vacuum air or vacuum water is generated in the back of the diaphragm because there is no fluid flow. Since the venturi 14 having the inlet guide 20 and the outlet guide 21 is smaller in cross section than the rotating body, the flow velocity of the fluid passing through the rotating body is increased and the venturi is in a negative pressure state, The flow of the fluid passing through the venturi is slowed while the flow of the fluid outside the outlet guide is fast and the flow of the fluid passing through the venturi is fast because the outlet guide 21 is an extended section having a section larger than that of the venturi. The outlet guide is in a negative pressure state due to the pressure difference, and a negative pressure substance 7 such as vacuum air or vacuum water is generated.

Next, one or more of the general compression device 30 and the general negative pressure device 31, which are manufactured and manufactured by using at least one of electricity produced and supplied externally, is operated to produce at least one of the compressed material 6 and the negative pressure material 7 Lt; / RTI > The electricity generated here is composed of the rotating body 10, the rotating body and the diaphragm passage 13 provided on the rear face of the rotating body, the rotating body and one of the inlet guide provided on the rear face of the rotating body and the venturi 14 equipped with the outlet guide Electricity generated using the constructor, and electricity provided externally is electricity provided from outside, other than electricity generated using the constructor. Next, electricity is generated by at least one of the generated and externally provided compression materials and negative pressure materials by at least one of the compression power generation device 40, the negative pressure generation device 41, and the compression negative pressure power generation device 42 . Here, the compressed material, the negative pressure material generated is a compressed material generated by using at least one of a general compression device and a general negative pressure device, a negative pressure material generated by using the constituent material, an externally provided compressed material, Is a compressed material, a negative pressure material, which is provided externally.

Further description of claims 3 to 12 is as follows. Claims 3 to 12 relate to a rotating body rotated by at least one of fluid, wind, water, wind force, hydraulic force, tidal force and wave force, a solar cell or a heat collecting plate for absorbing sunlight or solar heat, A venturi having an inlet connected to the narrow side of the inlet guide which is the opposite side of the wide side, an outlet guide mounted to the outlet of the venturi which is the opposite side of the inlet, a rotary power generator connected to the rotary body, Generating at least one of electricity, compression material, and negative pressure material by at least one of a rotating negative pressure device, a rotary compression negative pressure device, a solar cell or a solar power device connected to the heat collecting plate, A compression material supply device connected to at least one of an electric supply device connected to at least one of the at least one of the electric supply device, the inlet guide, and the rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, A negative pressure material supply device connected to at least one of the guides, an electric compression material supply device connected to at least one of the rotary power generation device and the inlet guide and the rotary compression device, the rotary power generation device and the rotary negative pressure device, the rotary compression negative pressure device, A compressed negative pressure material supply device connected to at least one of an electric negative pressure material supply device connected to at least one of the guides, an inlet guide, and a rotary compression device and at least one of a rotary negative pressure device, a rotary compression negative pressure device, a venturi, As a result of this, one or more of electricity, compressed material, and negative pressure material is supplied to the object or target site composed of at least one of liquid, vapor, and solid phase, and the object or target site itself, or one of liquid, Mixing, circulation, convection, de-icing, injection, extraction and extraction of contaminants present or contained in the object or target site Characterized in that it is treated with at least one of the following: mouth, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation and purification.

The entire structure of the apparatus according to claims 3 to 12 is provided with a rotating body 10 rotating by at least one of fluid, wind, water, wind force, hydraulic force, assist force and wave force as shown in Fig. 3 A solar cell 310 or a heat collecting plate 311 for absorbing sunlight or solar heat is installed and the wide side of the funnel-shaped inlet guide 20 is connected to the outer periphery of the rear surface of the rotating body 10, An outlet guide 21 is mounted at the outlet of the venturi 14 which is the opposite side of the inlet and the rotary generator 20 is connected to the rotary generator 20, At least one of the rotary compression apparatus 24, the rotary negative pressure apparatus 25 and the rotary compression negative pressure apparatus 245 is connected and the solar battery apparatus 312 is connected to the solar battery 310 or the heat collection plate 311 The solar generator is described in detail in claim 11, And at least one of the rotary power generation device 23 and the solar power generation device 312 is connected to the electric power supply device 50 and is connected to at least one of the inlet guide 20, In the inlet guide 20, since the sectional area of the venturi is smaller than the cross sectional area of the circumference of the rotating body, the fluid or the like passing through the rotating body is compressed in the inlet guide Compressed material is generated in the inlet guide so that the compressed material supply device 51 is connected to the inlet guide and the rotary negative pressure device 25, the rotary compression negative pressure device 245, the venturi 14, the outlet guide 21 And the electric compressed material supplying device 53 is connected to at least one of the rotary electric power generator 23, the inlet guide 20 and the rotary compressing device 24 A rotary power generation device 23 and a rotary negative pressure device 25, a rotary compression negative pressure device 24 5, the venturi 14, and the outlet guide 21 to which at least one of the inlet guide and the rotary compression device and the rotary negative pressure device, the rotary compression negative pressure device, the venturi, And the compression negative pressure material supply device 55 is connected to at least one of the outlet guides.

According to another aspect of the present invention, there is provided a rotating body rotating by at least one of fluid, wind, water, wind force, hydraulic force, An outlet guide mounted at an outlet of a venturi which is the opposite side of the inlet, a rotary power generator connected to the rotary body, Compressing material, and negative pressure material by at least one of the apparatus, the rotary vacuum apparatus, the rotary compression apparatus, the rotary compression apparatus, the rotary compression apparatus, the rotary compression apparatus, the rotary compression apparatus, A negative pressure material supply device connected to at least one of a compression material supply device connected to at least one of the rotary compression device, the rotary compression device, the venturi device, the outlet guide, At least one of an electric negative pressure material supply device connected to at least one of a compression device, a rotary compression negative pressure device, a venturi and an outlet guide, at least one of an inlet guide and a rotary compression device and a rotary negative pressure device, a rotary compression negative pressure device, A compressed or uncompressed material supply device connected to the compression medium supply device, or a compressed or uncompressed material supply device connected to the compression medium pressure device, Or a pollutant present or contained in a target or a target is subjected to aeration, mixing, circulation, convection, deicing, injection, extraction, extraction injection, aerating, anaerobic cleaning, flotation, removal, heating, decomposition, coagulation, sedimentation, purification Or more than one of them. Herein, at least one embodiment of the green energy, fluid, wind, water, wind, hydraulic, tidal force, or wave power is selected from the group consisting of 1) fluid, 2) wind, hydraulic, tidal, 5) wind force and tidal force, 6) wind force and wave force. 2 is a schematic view showing the green energy according to the present invention shown in FIG. 22 for both the wind force 340, the hydraulic force 341, the tidal force 342, and the wave force 343. FIG. 22 shows an example of application of wind power, water power and wave power to a dam, a beam, an underwater dam, a tail dam, a harbor, and a waterway in the river 1) a dam, a beam, an underwater dam, a tail dam, a harbor, A rotating body such as a wind turbine is installed on the upper part so as to rotate the rotating body by the wind and 2) a rotating body such as a water turbine is installed on the water that drips from a dam, a beam, an underwater beam, And 3) a rotating body such as an aberrator may be installed in the water of the reservoir stored by the dam, the beam, the underwater beam, the water film, the harbor, the waterway, etc. so that the rotating body rotates by the wave, The electricity, compressed material, and negative pressure material generated by the rotating body here can be augmented, mixed, circulated, convection, de-icing, injection, extraction, extraction of dams, reservoirs, , It can be used for aerobic, anaerobic, cleaning, flotation, to remove, heat coagulation, precipitation, one or more of the purification.

Further description of claims 3 to 12 is as follows. Claims 3 to 12 are embodiments of the present invention in which the rotor 10, the passage 11, the rotor passage 12, the diaphragm passage 13, the venturi 14, the revolving venturi 15, the diaphragm venturi 16, The outer peripheral flow passage 18 and the diaphragm outer peripheral flow passage 19, the inlet guide 20, the outlet guide 21, the blade opening 22, the rotary electric generator 23, the rotary compressor 24, (5), the compressed material (6), and the negative pressure material (7) by at least one of the rotary negative pressure device (25), the rotary compression negative pressure device (245), the compression space And generating at least one of a compression material and a negative pressure material by at least one of the general compression device (30) and the general negative pressure device (31) using at least one of the generation, externally provided, Generating electricity by at least one of a compression power generation device (40), a negative pressure generation power generation device (41), and a compression negative pressure power generation device (42) using at least one of a compression material and a negative pressure material, A compressed material supply device 51, a negative pressure material supply device 52, an electrically compressed material supply device 53, an electric negative pressure material supply device (not shown) 54 or the compressed negative pressure material supply device 55 to the object 2 or the object 2 composed of at least one of liquid, vapor and solid, and the object or the object itself or the object or the object Mixing, circulating, convection, deicing, injecting, extracting, extracting, expelling, anaerobic, cleaning, floting, removing, or removing any contaminants present or contained in the object or target site, Treatment with one or more of heating, decomposition, coagulation, sedimentation, and purification.

3 is a perspective view of the rotary body 10, the passage 11, the rotor passage 12, the diaphragm passage 13, the venturi 14, The venturi 15, the diaphragm venturi 16, the outer circumferential passage 17, the outer circumferential passage 18 of the rotating body, the outer circumferential passage 19 of the diaphragm, the inlet guide 20, the outlet guide 21, The electric power 5 is supplied by at least one of the rotary power generator 23, the rotary compressor 24, the rotary negative pressure device 25, the rotary compression negative pressure device 245, the compression space 26 and the negative pressure space 27, The embodiment for producing at least one of the compressed material 6 and the negative pressure material 7 includes 1) a blade opening 22, a rotating body 10, an inlet guide 20, a passage 11, a rotor passage 12 One of the diaphragm passages 13 and the outer circumferential passage 17, the outer circumferential outer circumferential passage 18 and the diaphragm outer circumferential passage 19 and the outlet guide 21 and the compression space 26, the negative pressure space 27, A rotary generator device 23, a rotary compressor 24, a rotary negative pressure device 25, and a rotary compression negative pressure device 245 (2) a blade (22), a rotating body (10), an inlet guide (20), a passage (11), a rotating body One of the passage 12 and the diaphragm passage 13 and the outer circumferential passage 17, the outer circumferential outer circumferential passage 18 and the diaphragm outer circumferential passage 19, the outlet guide 21, the compression space 26, 3) the rotating body 10, the inlet guide 20, the diaphragm passage 13, and the compressor 13, which are constituted by the compressor 23 and the rotary compressor 24, (5) and a compressed material (6) composed of a diaphragm outer peripheral flow passage (19), an outlet guide (21), a compression space (26), a rotary electric power generator 4) One of the blade openings 22, the rotating body 10, the inlet guide 20, the venturi 14, the revolving venturi 15, the diaphragm venturi 16, the outer circumferential passage 17, One of the oil passage 18 and the diaphragm outer peripheral flow passage 19 and the outlet guide 21 and the compression space 26, the negative pressure space 27, Compression material 6 and negative pressure material 7, which are constituted by a rotary compression device 24, a rotary compression device 25, and a rotary compression negative pressure device 245, and 5 The outer circumferential flow path 17 and the circumferential outer circumferential flow path 17 of the rotating shaft 10, the inlet guide 20, the venturi 14, the rotary venturi 15 and the diaphragm venturi 16, 18, and the diaphragm outer peripheral flow passage 19, the outlet guide 21, the negative pressure space 27, the rotary electric power generator 23, the rotary negative pressure device 25 and the rotary compression negative pressure device 245, 5 and the negative pressure material 7 and 6) the rotating body 10, the inlet guide 20, the diaphragm venturi 16, the diaphragm outer peripheral flow passage 19, the outlet guide 21, 7, which is composed of a rotating electric generator 23, a rotating negative pressure device 25, and a rotary compression negative pressure device 245 to generate electricity 5 and negative pressure material 7; 7) One of the diaphragm passage 13, the diaphragm venturi 16 and the diaphragm outer circumferential passage 19, the rotary electric power generator 23, the rotary compressor 2 Compressing material 6 and negative pressure material 7, which is composed of one or more of the rotating negative pressure device 4, the rotary negative pressure device 25 and the rotary compression negative pressure device 245, The compressed substance 6 composed of one of the diaphragm venturi 16 and rotary power generation device 23, rotary compression device 24, rotary negative pressure device 25 and rotary compression negative pressure device 245, 9) generating electric power 5 composed of the rotating body 10 and the rotary electric power generator 23, 10) rotating the rotating body 10 and the diaphragm passage (not shown) 11, the rotary valve 10, the diaphragm passage 13, the negative pressure space 27, and the rotary negative pressure pump 13, which are composed of the compression space 26, the compression space 26, and the rotary compression device 24, 12 is a perspective view of the rotating body 10, the inlet guide 20, the venturi 14 and the compression space 26, (12), and a rotary compression device (24) to produce the compressed material (6); 13) the rotating body (10) and the inlet guide And a negative pressure material 7 composed of a venturi 14, a negative pressure space 27, a rotary negative pressure device 25 and a rotary compression negative pressure device 245, and the like.

An embodiment of generating at least one of a compressed material, a negative pressure material by at least one of a general compression device (30), a general negative pressure device (31) , Generating a compressed material by means of a general compression device (30) using at least one of the externally provided electricity, 2) generating a negative pressure material by means of a common negative pressure device (31) , 3) generating compressed material and negative pressure material by the general compression device (30) and the general negative pressure device (31) by using at least one of electricity generation and external supply. Wherein at least one of the generated and externally provided compressed material and negative pressure material is used to generate electricity by at least one of the compression power generation device 40, the negative pressure power generation device 41, and the compression negative pressure power generation device 42 Embodiments of the present invention include, but are not limited to: 1) generating electricity by the compressive power generation device 40 using at least one compressed material, either generated or provided externally; 2) (3) generating electricity by means of the compression negative pressure generator (42) using at least one of a compression material and a negative pressure material, which is generated or provided externally, and the like.

At least one of the generated electricity, compressed material and negative pressure material may be supplied to the electric supply device 50, the compressed material supply device 51, the negative pressure material supply device 52, the electrically compressed material supply device 53, An embodiment of supplying an object or object 2 composed of at least one of liquid, vapor and solid by one or more of the supply device 54 and the compressed negative pressure material supply device 55 is characterized by 1) The compressed material is supplied to the object or object 2 composed of at least one of liquid, gaseous and solid by the supply device 50, and 2) the compressed material is discharged into the liquid material, 3) supplying the generated negative pressure material to the object 2 or the object 2 composed of at least one of liquid, vapor, and solid by the negative pressure material supply device 52; 4) The generated electricity, compressed matter, And 5) supplying the generated electricity and compressed material to the object or the object 2 composed of at least one of liquid, vapor, and solid by the shaft material supply device 53 by the electric negative pressure material supply device 54, , The vapor phase, and the solid phase, or to the target site (2); (6) the generated compressed material and the negative pressure material are supplied to the compression negative pressure material supply device (55) To the object 2 or the target site 2, or the like.

Examples of producing at least one of electricity, compressed material and negative pressure material may include a rotating body, a rotating body passage, a rotating body, a rotating body, a rotating body, a rotating body, At least one of electricity, compressed material, and negative pressure material is generated by a rotary power generation device, a rotary compression device, a rotary negative pressure device, and a rotary compression negative pressure device using rotational motion of at least one rotating body of a rotary venturi, . And a passage through which fluid, wind, water, wind force, hydraulic force, tidal force, wave or the like passes or flows, a rotor passage, a diaphragm passage, a venturi, a revolving venturi, a diaphragm venturi, an outer passage, At least one of a compression space, a compression space, and a negative pressure space in a negative pressure space is generated. Here, the compressed material is a compressed or pressurized material, such as compressed fluid, compressed air, compressed water, etc., and the negative pressure material is a negative pressure or vacuum material, such as a negative pressure fluid, negative pressure air, vacuum, Here, the compressed fluid and the negative pressure fluid are generated because the fluid is circulated through the rotating body, the passage, the rotor passage, the diaphragm passage, the venturi, the rotary venturi, the diaphragm venturi, the outer circumferential passage, , Or when it flows into, faces, or flows into the openings of the day. Compressed air, negative pressure air, and vacuum are generated when wind, wind, etc. flow in, face, and flow into the above. The generation of the extruded water and the sub-seaweed corresponds to the case where water, hydraulic power, tidal force, and wave power flow into, flow into and face the above.

Generating at least one of the compressed material and the negative pressure material by at least one of a general compression device and a general negative pressure device using the generated electricity may be performed by using at least one of a general compression device and a general negative pressure device Thereby producing at least one of a compression material and a negative pressure material. Here, the general compression device is an apparatus for producing compressed or pressurized material by using electricity, such as an air compressor, a blower, a blower, a water compressor, a water pump, a pressure pump, etc., which are commercially available. Here, the general negative pressure device is a device for generating a negative pressure or a vacuum material by using electricity. The vacuum device is a commercially available vacuum air, a vacuum pump, a vacuum generator, and the like. In an embodiment of generating electricity using one or more of the resulting compressed and / or negative pressure materials, one or more of the resulting compressed material, negative pressure material, compressed material & , And operates the compression negative pressure generator to generate electricity. According to an embodiment of supplying at least one of the generated electricity, compressed material and negative pressure material to an object or a target site composed of at least one of a liquid phase, a gas phase and a solid phase, at least one of the electricity, Is supplied to an object or a target through at least one of an electric supply device, a compressed material supply device, a negative pressure material supply device, an electric compressible substance supply device, an electric negative pressure material supply device, and a compressed negative pressure material supply device.

The present invention includes the following contents. The present invention relates to a rotating body, a passageway, a rotor passage, a diaphragm passage, a venturi, a revolving venturi, a diaphragm venturi, a diaphragm venturi, a diaphragm venturi, A rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, a negative pressure space, a general compression device, a general negative pressure And a compressed negative pressure material supply device, wherein the compressed negative pressure material supply device, the compressed negative pressure generating device, the negative pressure generating device, the compressed negative pressure generating device, the electric supply device, the compressed substance supply device, The present invention relates to a centrifugal separator for circulating a refrigerant in a centrifugal separator of a centrifugal separator. Generating at least one of electricity, compressed matter, or negative pressure material by at least one of a negative pressure device, a rotary compression negative pressure device, a compression space, a negative pressure space, by at least one of a general compression device and a general negative pressure device using generated electricity Generating electricity by at least one of a compression power generation device, a negative pressure power generation device, and a compression negative pressure power generation device using at least one of a compression material, a negative pressure material, at least one of a generated compression material and a negative pressure material, At least one of a compressed material, a negative pressure material, a liquid material, a vapor phase material, and a liquid material by at least one of an electric supply device, a compressed material supply device, a negative pressure material supply device, Supply to an object or object composed of at least one of the solid objects, supply of the object or object itself, or liquid constituting the object or object Mixing, circulation, convection, de-icing, injection, extraction, extraction injection, exhalation, anaerobic cleaning, flotation, removal, heating, decomposition, contamination, contamination existing or contained in the object or object , Flocculation, sedimentation, purification, or the like.

Herein, fixed, installed or installed or mounted may be fixed to itself or attached to or mounted on a ground or a facility or structure, or supported on a ground or facility or structure, foundation, pile, column, platform, , Or at least one of them. The installation, laying, or installation in the water is self-contained, or installed, laid, or mounted on an object in water. The installation, laying or installation of the awards type is to be in the aquaplane itself, or to be installed, laid, or mounted on an object in the aquaplane. Mounting, laying, or mounting in the subtype is itself floated or installed, laid or mounted on water, air, suspended or floating objects in the atmosphere. It is installed, laid or installed in a glide type, is installed or laid on itself, or is installed, laid, or mounted on air, air, air, or airships. Mounted, laid, or mounted in a mobile type is installed, laid, or mounted on a vehicle, ship, boat, or the like, which is moving or moving.

The rotating body, the passage, the rotating body passage, the diaphragm passage, the venturi, the rotating body venturi, the diaphragm venturi, the outer circumferential passage, the rotating outer circumferential passage, the diaphragm outer circumferential passage, the inlet guide, Compressors, compression compressors, compression compressors, compression compressors, compression compressors, compression compressors, compression compressors, compression compressors, compression compressors, compression compressors The present invention relates to a material supply device, an electric compressing material supply device, an electric negative pressure material supply device, a compressed negative pressure material supply device, and a rotating body, a passage, a rotor passage, a diaphragm passage, a venturi, a rotary venturi, a diaphragm venturi, A rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space are fixed, subtype, glide, or mobileThe general compression device, the general negative pressure device, the compression power generation device, the negative pressure power generation device, and the compression negative pressure power generation device are preferably installed, laid, or mounted on the floor or the like, The apparatus, the compressed material supply device, the negative pressure material supply device, the electrically compressed material supply device, the electric negative pressure material supply device, and the compressed negative pressure material supply device may be installed, laid, or mounted in any form of fixed type, negative type, It is possible.

Embodiments of a rotating body, a rotary power generator, a rotary compression device, a rotary negative pressure device, and a rotary compression negative pressure device that generate at least one of electricity, a compressed material, and a negative pressure material, Wherein one or three rotating bodies are disposed at one of a fluid, a wind, and a water, and are sequentially rotated in accordance with the longitudinal direction of one rotating shaft of the rotating body, the crankshaft of the rotating compressing apparatus, The crankshaft of the rotary compression apparatus is connected to the crankshaft of the rotary compression apparatus, or the crankshaft of the rotary compression apparatus, the crankshaft of the rotary compression apparatus and the crankshaft of the rotary compression apparatus are respectively connected to the rotary shafts of the rotary generator, The rotation speed of the rotating body is accelerated by the transmission device connected to the rotating shaft of the rotating body and electricity is generated in the generator that receives the rotating speed of the rotating body, and rotation of the rotating body rotating on the crankshaft of the rotating compressing device connected to the rotating shaft of the rotating body And the compressed air is generated when the piston pushes the air in the cylinder while reciprocatingly moving the piston through the connecting rod connected to the crankshaft, When the piston moves in the reciprocating linear motion through the connecting rod connected to the crankshaft while the rotary motion of the rotating body rotating on the crankshaft of the rotary compression negative pressure apparatus is transmitted to draw air in the cylinder A vacuum is created. And generating at least one of a compression material and a negative pressure material by using at least one of a general compression device and a general negative pressure device using the generated electricity, A common compressing device such as a compression pump, a blower, or an air compressor is operated to generate compressed air or the like, and a general negative pressure device such as a vacuum, a vacuum device or a vacuum pump is operated using electricity generated by the generator Negative pressure, vacuum, and the like.

According to another embodiment of the present invention, the energy source is a blade rotating by a green energy which is at least one of wind energy 40 to 100%, hydraulic power 30 to 100%, tidal force 20 to 100%, and wave power 10 to 100% Horizontal blades, vanes, turbines, wings, propellers, impellers, vanes, windmills, wing cars, windmills, aberrations, cylinders with wings, cylinders with spirals, common with wings, common with spirals, cones with wings, A cone with a wing, a cone with a spiral, a cone with a wing, a cone with a spiral, a cone with a wing, a cone with a spiral, a cone with a spiral, a top with a wing, a top with a spiral, A rotary diaphragm, a rotating diaphragm, a rotating diaphragm, a rotary diaphragm, a rotary diaphragm, a diaphragm passage, a venturi, a rotary venturi, a diaphragm venturi, an outer diaphragm, Compression negative pressure device At least one of electricity, compressed material, and negative pressure material by at least one of a vacuum, a space, and a negative pressure space, or by one or more of a general compression device, a general negative pressure device, Compressing material, or negative pressure material, or one or more of the first, second, and the third, plus or minus one or more of the producing, externally providing, compressing and generating devices, And at least one of the generated electricity, compressed material, and negative pressure material in addition to at least one of first, second, third, and the like may be electrically connected to at least one of an electricity supply device, a compressed material supply device, A liquid supply device, a liquid supply device, a liquid supply device, The supply of the liquid to the object or the object consisting of one or more of the first, second, third, fourth, and fifth objects may be performed by supplying the object or the object itself, Mixing, circulation, convection, de-icing, injection, extraction, extraction injection, exhalation, anaerobic, cleaning, floatation, removal, heating, decomposition, aggregation of at least one of the solid phase, , Precipitation, and purification.

Here, generating at least one of the electricity, the compressed material, and the negative pressure material may be performed by using at least one of a rotating body, a passage, a rotating body passage, a diaphragm passage, a venturi, a rotating body venturi, a diaphragm venturi, , An outlet guide, a blade opening device, a rotary generator, a rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space. Here, the rotating body includes a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a wheelbarrow, a wing car, a windmill, Common, cone with wing, cone with spiral, cone with wing, cap with spiral, cone with wing, cone with spiral, cone with wing, cone with wing, cone with spiral, top with wing, top with spiral, funnel with spiral, with spiral It is one of the funnels. Here, the vertical blade and the horizontal blade are blades whose configuration or shape, installation or arrangement is vertical to the ground and horizontal. Here, the wing attachment and the spiral attachment are respectively attached with one or more wings and spiral, and the wing attachment and the spiral attachment are the external force such as fluid, wind, wind force, air, water, gas, gas, hydraulic force, The wing and the spiral strike the wing to generate a vortex or a vortex so as to improve the rotational force of the rotating body. The angle? At which the wing and the spiral are attached to the wing of the rotating body, The angle of attachment of the wings and the spiral is preferably set to an angle that allows the rotation of the rotating body to be maximally increased by an external force such as wind, Most preferably, it is attached.

Where the energy source ratio is rotated by green energy which is at least one of wind energy 40-100%, hydraulic power 30-100%, tidal force 20-100%, and wave power 10-100% Wherein the at least one of the wind, hydraulic, tidal or wave forces is at least one of wind, hydraulic, tidal, wave, wind and hydraulic, wind and tidal, wind and wave, hydro and tidal, 22 and 22, wherein the wind power is 40 to 100%, the hydraulic power is 30 to 100%, and the hydraulic power is the wind power, %, Tidal force 20 to 100%, and wave energy 10 to 100%, the energy source ratio is 100%, 100%, 100%, 100% Wind power 40%, hydraulic power 30%, tidal force 20%, wave power 10%, 60%, 60%, 40%, 100%, 30%, 60% and 10%, respectively, to 100% and 70% and 30% respectively 100% overall, and the like.

The description of claim 4 is as follows. According to a fourth aspect of the present invention, there is provided a rotary electric machine comprising: a rotating body; a passage; a rotor passage; a diaphragm passage; a venturi; a rotary venturi; a diaphragm venturi; Compressing material, and negative pressure material by at least one of a compressing device, a rotating negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space, Compressing material, negative pressure material by using at least one of a compression material, a negative material, at least one of a compression material, a negative material, Generating electricity by at least one of the negative pressure generating devices, supplying at least one of the generated electricity, compressed material, and negative pressure material to an electric supply device, a compressed substance supply device, Supplying an object or object made up of at least one of a liquid phase, a gas phase and a solid phase by at least one of an apparatus, an electric compressing substance supplying apparatus, an electric negative pressure substance supplying apparatus and a compression negative pressure substance supplying apparatus, Mixing, circulating, convection, de-icing, injecting, extracting, extracting, expelling, anaerobically, or cleaning at least one of the liquid, vapor, and solid phases constituting the object or the object or the contaminant present or contained in the object or the object , Flocculation, removal, heating, decomposition, flocculation, sedimentation, purification, or the like.

The rotating body 10 may be a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a spinning wheel, a wing car, a windmill, Common with wing, cone with wing, cone with wing, cone with wing, cone with spiral, cone with wing, cone with spiral, cone with wing, cone with wing, cone with spiral, top with wing, top with spiral, And the compression power generation device 40 generates electricity 5 by using the compressed material 6. This compression power generation device 40 includes a compression reservoir 120, a compression turbine 121, a generator 102, In which the compressed material is directly sent to the compression turbine or the compressed material is stored in the compression reservoir through the hose 210 and the stored compressed material is sent to the compression turbine, Electricity from And the negative pressure generating device 41 generates electricity 5 using the negative pressure material 7. This negative pressure generating device 41 generates electricity 5 using at least one of the negative pressure reservoir 122, the negative pressure turbine 123 and the generator 102 In this embodiment, the negative pressure material is directly sent to the negative pressure turbine, or the negative pressure material is stored in the negative pressure reservoir through the hose 220 and the stored negative pressure material is sent to the negative pressure turbine to generate electricity from the generator connected to the compression turbine And the compression negative pressure generating device 42 generates electricity 5 by using the compressed material 6 and the negative pressure material 7. The compressed electricity is generated by the compression storage container 120, the negative pressure storage container 122, Turbine 124, and generator 102, in which embodiments compressive and negative pressure materials may be immediately sent to a compressed negative pressure turbine, or compressed material may be stored in a compression reservoir via hose 210 The negative pressure material is stored through the hose 220, The compressed air is supplied to the compressing and negative pressure turbine to generate electricity in the generator connected to the compressed negative pressure turbine. The electric supply device 50 includes electric wires 200, electrodes 201, heating wires 202 , The compression material supply device 51 comprises a hose 1 210, a hose control valve 1 211, a side line 1 212, a side line control valve 1 213, a disperser 215 The hose 2 220, the hose control valve 2 221, the side line 2 222, and the hose control valve 217. The negative pressure material supply device 52 includes a hose 2, A side line regulating valve 2 223 and a suction pipe 225. The electrically compressed material supplying device 53 includes at least one of electric wires and electrodes serving as electric supply devices and a hose 1 as a compressed material supplying device, Hose control valve 1, side line 1, sideline control valve 1, at least one of a disperser, a disperser housing, and a disperser indicator In this embodiment, the electric power is supplied to a certain point or a predetermined portion of the object or the object, and the compressed substance is supplied to the fixed point or the predetermined portion by the compressed material supplying device. The negative pressure material supply device 54 is composed of at least one of electric wires and electrodes as an electric supply device and at least one of a hose 2 as a negative pressure material supply device, a hose control valve 2, a side line 2, a side line control valve 2, In this embodiment, electric power is supplied to a certain point or a predetermined portion of an object or a target area by an electric power supply device, and a negative pressure material is supplied to a certain point or a certain portion by a negative pressure material supply device. The device 55 includes a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, A hose 2, a hose control valve 2, a side line 2, a side line control valve 2, and a suction pipe. Examples of this embodiment include a schedule of an object or a target place 2) a compressed material is supplied by a compressed material supply device, and 3) a negative pressure material is supplied by a negative pressure material supply device to a certain point or a certain site.

The description of claim 5 is as follows. According to a fifth aspect of the present invention, there is provided a rotary electric machine comprising: a rotating body; a passage; a rotor passage; a diaphragm passage; a venturi; a rotary venturi; a diaphragm venturi; At least one of a compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space is installed in one of an interior, an exterior, and a periphery of one of a repair facility, Generating or externally providing at least one of electricity, compressed material, while being mounted on one of an underwater body, an aqueous body, a glue body, a float, and a moving body, Generating at least one of a general compressing device and a general negative pressure device using at least one of electricity generated by the compressing device and the general negative pressure device, and supplying the generated electricity to the object or target site through a wire or an electrode Or supplying the generated electricity to the object or the target using the electric wire is for sterilizing at least one of the contaminant present in or contained in the object or the object, the green tide, the red tide, the green tide, etc., One or more of the supplied compressed material or at least one of the externally provided wash water, high pressure water, pressure water and nozzle water, or at least one of the generated compressed material and the externally provided wash water, high pressure water, 5 to 99 parts by weight of loess, slag, loess and 5 to 99 parts by weight of slag, activated charcoal, charcoal, charcoal, etc., loaded on one of the above mentioned fixture, underwater body, , A zeolite, a surfactant, a construction waste, a waste concrete, a waste cement, a recycled aggregate, a recycled aggregate, a recycled aggregate, Or the object or the object itself, or one or more of liquid, vapor, and solid constituting the object or the object, or the object or the contaminant contained in or contained in the object or the object, Treatment with at least one of injection, extraction, extraction injection, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation and purification, or treatment of any of the algae, red tides, Characterized in that at least one is treated with at least one of aeration, removal, flocculation, sedimentation and purification.

An application example to claim 5 is shown in Fig. FIG. 5 is a schematic view showing a method of spraying a certain substance on a moving object according to the present invention onto a target or a target using a compression material. FIG. The generated compressed material or the externally supplied washing water, high pressure water, pressure water, nozzle water, and the like may be added to a certain substance 320 loaded on one of a fixed body, an underwater body, an aqueous body, a glue body, One or more of the generated compressed material and at least one of the generated compressed material and the externally provided wash water, high pressure water, pressure water and nozzle water may be injected or ejected through at least one of the hose, the nozzle and the pipe 322, Spraying and supplying the substance 320 to a target or a target site may be performed by injecting or supplying a target substance or target substance to the target or the target one or more of the pollutants present in the target or the target site, To remove it.

The number of wash water, high pressure water, pressure water, and nozzles provided from the outside are wash water, high pressure water, pressure water, and nozzle number provided by separate pressure tanks, pressure pumps, hydraulic tanks, The use of externally provided wash water, high pressure water, pressure water and nozzle water is further applied when the pressure of the compressed material is low or when the pressure of the compressed material is to be increased. Here, at least one of the compressed material, the externally provided wash water, the high pressure water, the pressure water and the nozzle water means at least one of the compressed material, the washing water, the high pressure water, the pressure water and the nozzle water. Here, the fixed body is fixed to one of the ground, the structure, and the facility, the water body is an object in water, the water body is an object in the water, the glue body is an object gliding in the air, , An instrument, an airship, etc., and a moving object is a moving object such as a vehicle, ship, boat, and the like.

Here, 5 to 99 parts by weight of loess, slag, loess, 5 to 99 parts by weight of slag, charcoal, charcoal, zeolite, surfactant A construction material composed of at least one of construction waste, waste concrete, waste concrete, waste cement, waste paper, recycled aggregate, and recycled aggregate is composed of 0 to 100 parts by weight of each constituent constituting a certain material, 100 parts by weight. In this embodiment, 80 parts by weight of loess and 20 parts by weight of slag, which are components in the case of two components of loess and slag, may be 100 parts by weight as a whole. Next, in the case where the constituent elements are loam, slag, loam soil 5 to 99 parts by weight and slag 5 to 99 parts by weight, a mixture of 40 parts by weight of loess, 30 parts by weight of slag, 5 to 99 parts by weight of loess and 5 to 99 parts by weight of slag To 100 parts by weight as a whole. Here, in the example of 5 to 99 parts by weight of the loess and 30 parts by weight of the mixture of 5 to 99 parts by weight of the slag, 30 parts by weight of a mixture of 80 parts by weight of loess and 20 parts by weight of slag, 30 parts by weight of a mixture of 40 parts by weight of loess and 60 parts by weight of slag And the like.

The description of claim 6 is as follows. According to a sixth aspect of the present invention, there is provided a rotary electric machine comprising: a rotating body; a passage; a rotor passage; a diaphragm passage; a venturi; a rotary venturi; a diaphragm venturi; Generating at least one of electricity, compressed material, negative pressure material by at least one of a compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, a negative pressure space, At least one of a compression material and a negative pressure material is generated by at least one of a device and a general negative pressure device, and at least one of the generation and the externally provided electricity is applied to an electrode of a positive electrode and a negative electrode embedded in the object or the object The present invention relates to a method for producing an electrolytic cell, comprising the steps of: At least one of the materials is directly transferred from the cathode to the cathode by being moved to the cathode or the produced negative pressure material or an externally provided negative pressure material is applied to the cathode to extract at least one of the contaminated water, In this case, in order to extract the negative pressure material or the externally supplied negative pressure material from the negative electrode to the outside by negative pressure in the latter case, the negative electrode itself, the pipe embedded in the vicinity of the negative electrode, the pipe embedded in the negative electrode, It is necessary to extract at least one of pollutants and organic matter from the cathode to the outside with a negative pressure, and at least one of electricity generated and provided to the object or target is supplied to the trench, To the electrodes of the positive and negative electrodes embedded in at least one of At least one of an electrolytic phenomenon, an electroosmotic phenomenon, an electrophoresis phenomenon, and an electrophoresis phenomenon is generated, and at least one of the polluted water, contaminant, and organic matter present therein is directly transferred to the cathode from the cathode, Removing at least one of polluted water, contaminants, and organic substances from the negative electrode by applying the generated negative pressure material or an externally supplied negative pressure material to the negative electrode, and removing at least one of the generated negative pressure material, the externally provided vacuum, To the object or target to extract at least one of leachate, polluted water, air, polluted air, gas, odor, and smell present in the object or object to be extracted, the resulting compressed material, externally provided bubbles, oxygen, ozone, , Carbon dioxide gas, carbonated water, pressure water, high pressure water, compressed air, pressure air, surfactant, water, water, steam, mist, smoke, fog, fog, Or extracting one or more extracted substances from at least one of the outer material, the extracted leachate, the contaminated water, the air, the polluted air, the gas, the odor, the smell, Mixing, circulation, convection, de-icing, injection, extraction, extraction injection, exhalation, or mixing of at least one of liquid, vapor, and solid constituting the object itself or object or object, The method according to any one of claims 1 to 3, wherein the at least one of anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation and purification is carried out or at least one of stabilization, smell stabilization, One or more of the above negative pressure substances, the external negative pressure, or one or more external substances, or one or more extract substances, or compressed substances, external substances, At least one or more or each of the components that comprise more than one is 0-100%, and the total is 100% parts by weight part or parts by volume or a pressure, a size of the external material is 1 x 10 ^-1 to 1 × 10 ^{- A} centimeter size of 0.9 * 10 ^{-2 to} 1 * 10 ^-3 m, a millimeter size of 0.9 * 10 ^{-3 to} 1 * 10 ^-6 m, a size of 0.9 * 10 ^{-6 to} 1 * 10 ^-9 m, a nanopicometer size of 0.9 * 10 ^{-9 to} 1 * 10 ^-12 m, and a pico femtometer size of 0.9 * 10 ^{-12 to} 1 * 10 ^-15 m, The extracted pressure is one of low pressure, medium pressure, high pressure, no pressure, hydraulic pressure, gravity pressure, atmospheric pressure and other pressures. Low pressure is -1 × 10 ^-100 to ^-10 kg / cm ² or 101-759 Torr, 100kg / cm ² or 11~100Torr, high pressure is ^{-101~-1 × 10 100 kg /} cm 2 or 1 × 10 ^-100 ~10Torr, muap the pressure of 0kg / cm ^2, the hydraulic pressure is greater than 0kg / cm ² , Gravity pressure is gravity pressure, atmospheric pressure is atmospheric pressure, and other pressures are low pressure, As pressure, muap, hydraulic, gravitational pressure, and the pressure of the outside atmospheric pressure, the pressure at which the supply or injection of low pressure, medium pressure, high pressure, muap, hydraulic, gravitational pressure, either atmospheric pressure, the other pressure, the low pressure is 1 × 10 ^-100 ~10kg / cm ^2, the intermediate pressure is 11~100kg / cm ^2, a high pressure is 101~1 × 10 ¹⁰⁰ kg / cm ² Pressure is 0 kg / cm ² , hydraulic pressure is more than 0 kg / cm ² , gravity pressure is gravity pressure, atmospheric pressure is atmospheric pressure, and other pressures are low pressure, medium pressure, high pressure, Is a pressure other than the above.

In claim 6, in order to stabilize, stabilize, or sanitize the object or the object, it is desirable that the object such as waste, pollutant, contaminated soil, contaminated soil, contaminated soil, selective soil, selected soil 334, Waste landfill site, waste landfill site, mine site, polluted site, industrial complex, pollution complex, gas station, etc. In the case of the landfill, unrefined landfill, illegal landfill, digging landfill, circulating landfill, waste digging site, waste digging site, The selected soil and selected soil (334) from the objects herein are used for the removal of waste such as waste, contaminated soil, contaminated soil, contaminated soil, or waste excavated from waste landfill, waste excavated from the ground, The polluted soil excavated from the site, the polluted soil excavated in the ground, the polluted soil excavated from the mine site, the polluted soil excavated from the industrial complex, the polluted soil excavated from the gas station, the polluted soil, When selected as flammable materials, organic matter, incombustibles, aggregates, and soil by using a screening device (333) such as a screen, a horizontal screen, a vibration screen, a cyclone, a wind screening device, a wet screening device and a water tank screening device, And a mixture of aggregates.

An application example of claim 6 is shown in Fig. FIG. 6 is a graph showing the distribution of the amount of waste landfill, sanitary landfill, unsanitary landfill, illegal landfill, digging landfill, cyclic landfill, waste digging site, waste digging site, waste site, mining site, polluted site, FIG. 2 is a schematic view showing the malodor stabilization and selective soil erosion according to the present invention. The venturi 14, the revolving venturi 15, the diaphragm venturi 16, the outer circumferential passage 17, the outer circumferential passage 16, the outer circumferential passage 17, The rotary outer peripheral flow passage 18, the diaphragm outer peripheral flow passage 19, the inlet guide 20, the outlet guide 21, the blade opening 22, the rotary electric generator 23, the rotary compressor 24, (5), compressed material (6), and negative pressure material (7) by at least one of the device (25), the rotary compression negative pressure device (245), the compression space (26) Generating at least one of a compression material and a negative pressure material by at least one of a general compression device (30) and a general negative pressure device (31) using one or more of the following: .

Here, at least one of the generated electricity and the externally provided electricity is supplied to at least one of the trench 331, the porous pipe 332, and the non-porous pipe provided in the object or the ground 2 to supply or not supply the purification promoting material 330 One or more of an electrolytic phenomenon, an electroosmotic phenomenon, an electrophoresis phenomenon, and an electrophoresis phenomenon may be generated or supplied to the anode 201 and the cathode 201 to move at least one of the contaminated water, contaminant, Or directly from the cathode to the outside by means of natural drainage, gravity, gravity, gravity, pumping, pumping water or the like, or by applying the generated negative pressure material or an externally supplied negative pressure material to the negative electrode to remove at least one of contaminated water, Extract to the outside. One or more of the extracted polluted water, contaminants, and organic matter may be discharged, discharged, drained, or reused for reinjection to the outside. Here, the purification promoting material 330 is a material that is injected into the contaminated soil, soil, waste, and promotes pollution purification, and includes microorganisms, surfactants, supercritical materials, air, oxygen, ozone and the like. Here, microorganisms are classified into general microorganisms and useful microorganisms. When electricity is supplied to the electrode, the liquid phase, the contaminant, and the like are moved from the anode to the cathode direction by electroosmosis, electromigration, etc., so that the purification promoter 330 is moved to the anode direction, It is desirable to desorb, remove, detoxify, and exhalate contaminants adsorbed on contaminated soil, soil and waste while promoting pollution purification. The purification promoting material 330 is preferably a structure in which a hose is connected from the reservoir of the purification promoting material 330 to the anode trench 331, the porous pipe 332, and the non-porous pipe, Here, the trench 331 corresponds to an underground excavation or the like, the perforated pipe 332 is a pipe having a perforated hole on the outer periphery, and the perforated pipe is a pipe having no perforated hole on the peripheries.

Here, when electricity is supplied to or applied to the positive electrode 201 and the negative electrode 201, water (H ₂ O) constituting the liquid, leachate, or contaminant present or contained in the object or the object by electrolysis is dissolved in oxygen ₂ ) and hydrogen (H ₂ ), or the pollution component existing in the soil is decomposed into bipolar component and negative component and becomes harmless, or when the iron electrode is used as the anode, the iron electrode is decomposed and iron Fe ²⁺ ), which reacts with phosphorus (P) or the like, which is a contaminant in the object or the target, to change into contaminants such as iron phosphate (FePO ₄ ). Then, the liquid or water moves from the anode to the cathode due to the electroosmosis phenomenon, and the cationic contaminants and heavy metals move to the cathode due to the electro migration, and the electroosmosis phenomenon migration of liquid, water, cationic contaminants, and heavy metals to the cathode, and electrophoresis moves the contaminant particles of the cation to the cathode. Here, the liquid, water, heavy metals, contaminants, and contaminating particles transferred to the cathode are directly extracted from the cathode to the outside, or the generated negative pressure material or an externally supplied negative pressure material is applied to the cathode to remove at least one of contaminated water, Extract from the cathode to the outside with negative pressure. The extraction of the generated negative pressure material or the externally supplied negative pressure material to the negative electrode to extract at least one of the contaminated water, the contaminant and the organic matter from the negative electrode by the negative pressure may seal the generated negative pressure material or the externally supplied negative pressure material And at least one of polluted water, contaminants, and organic substances collected on the cathode is extracted from the cathode to the outside by negative pressure. It is important to seal it so that the negative pressure does not leak. The above is an application example for selective soil remediation and contaminated soil remediation.

In this case, at least one of the generated negative pressure material 7, an external negative pressure, and an external negative pressure 337 such as vacuum pressure may be supplied to or added to the object or target to remove the leachate, contaminated water, air, Odor, and smell are extracted as follows. This may be achieved by supplying or applying one of negative pressure material, negative pressure material, negative pressure material and external negative pressure to at least one of the negative pressure material 7 and the external negative pressure 337 to the object or the target object to remove the leachate, It extracts at least one of gas, odor, and smell to the outside. One or more of the extracted leachate, contaminated water, air, polluted air, gas, odor, or odor may be discharged, discharged, drained, or reused for reinjection to the outside. A negative pressure material is connected to a hose from a negative pressure material generator and connected to a pipe, a vacuum pipe, a negative pressure material reservoir or an external negative pressure supply hose which is embedded or intruded into an object or a target site. Vacuum as a negative pressure material is connected to a pipe, The reservoir, the external negative pressure supply hose, and the like. The external negative pressure is supplied or applied from the reservoir of the external negative pressure to the pipe such as the pipe, the hollow pipe, the negative pressure material reservoir, the negative pressure material supply hose, and the like. Here, at least one of the negative pressure material 7 and the external negative pressure 337 is 0-100% by weight or a volume or a pressure portion of each constituent constituting at least one of them, and the whole is 100%. For example, when the constituent element is a negative pressure material and an external negative pressure, there is an example where the pressure is 100%, which is the vacuum pressure of the negative pressure material of 80% and the vacuum pressure of the external negative pressure of 20%. The above is an example of application to odor stabilization through extraction.

The generated compressed material 6, the externally provided bubbles, oxygen, ozone, carbon gas, carbon dioxide gas, carbonated water, pressure water, high pressure water, compressed air, pressure air, surfactant, moisture, water, steam, mist, (336) of at least one of an external substance (335), at least one of the fog, fog, fog, and smog, and the extracted leachate, contaminated water, air, polluted air, gas, odor, odor Or implantation of the drug is described below. Here, the compressed material 6, the external material 335, and the extracted material 336 are each connected to and connected to three perforated pipes 332 or non-perforated pipes, respectively, Is preferably integrated into one hose and connected to one porous tube 332 or a non-hollow tube. Here, the compressed material 6 is connected to the hose by the hose from the compressed material generating apparatus, and the hose is connected to the external material 335 supply hose, the extraction material 336 supply hose, the pipe pipe 332, And the hose is connected to the outer material 335 from the reservoir of the external material 335 to the supply hose for the compressed material 6, the supply hose for the extracted material 336, the pipe tube 332, The extracting material 336 is extracted from the object or the object and then supplied to the compression material 6 supply hose, the external material 335 supply hose, the pipe tube 332, It is possible to supply the hose to the object or target site through the hose. When supplying only the extracting material 336, it is possible to supply the extracted material at a high pressure by adding a separate pressure tank, a pressure pump, a blower, a blower or the like in order to increase the supply pressure. Here, the supply and injection of the extract material indicates re-injection of the extracted substance. This is an example of application to odor stabilization through extraction and rejuvenation.

The present invention relates to a method for producing a compressed material comprising the steps of: 1) producing the compressed material (6), 2) providing external bubbles, oxygen, ozone, carbon gas, carbonic acid gas, carbonic acid water, pressure water, high pressure water, (3) at least one extraction substance (336) of at least one of the extracted leachate, contaminated water, air, polluted air, gas, odor, odor, (4) one or more of (1), (2), and (3) of the above. Wherein at least one of the compressed material (6), the external material (335), and the extracted material (336) comprises at least one of a compressed material, an external material, an extractant material, a compressed material and an external material, It becomes one of the substance, the external substance and the extract substance. Here, each of the constituent elements constituting at least one of at least one of 2), at least one of 3), at least one of at least one of 4) has 0-100% by weight or 100% by volume or pressure and 100% . For example, in the case of 2), in the case of 2), oxygen and ozone constitute 80% of oxygen and 20% of ozone, respectively. In the case of 4), 4) constitutes 1), 2), 3), the volume is 1) 30%, 2) 20%, and 3) 50% do. The pressure at which at least one of the compressed material 6, the external material 335 and the extracted material 336 is supplied to or injected into the object or target is selected from the group consisting of low pressure, medium pressure, high pressure, pressureless, hydraulic, gravity pressure, as one, the low pressure is ^{1 × 10 -100 ~10kg / cm 2} , the intermediate pressure is 11~100kg / cm ^2, a high pressure is ^{101~1 × 10 100 kg / cm 2} , the pressure of the muap 0kg / cm ^2, the hydraulic pressure 0kg / cm ² , gravity pressure is gravity pressure, atmospheric pressure is atmospheric pressure, and other pressures are pressure other than low pressure, medium pressure, high pressure, pressure, hydraulic pressure, gravity pressure and atmospheric pressure. Wherein the size of the foreign material 335 is in the range of 1 * 10 ^{-1 to} 1 * 10 ^-2 m in centimeter size, 0.9 * 10 ^{-2 to} 1 * 10 ^-3 m in centimeter size, 0.9 * 10 ^{-3 to} 1 * ^10-6 m milli micron size, 0.9 * 10 ^-6 micro-nanometer size of ^{~1 * 10 -9 m, 0.9 *} 10 -9 ~1 * 10 -12 m nano picometers size of 0.9 * 10 ^It is one of the pico-femtometer sizes from ^{-12 to} 1 * 10 ^-15 m.

Here, objects or objects such as waste, pollutants, contaminated soil, contaminated soil, contaminated soil, selective soil, selected soil (334), etc., are required to perform at least one of stabilization of object or object, stabilization of odor, , Waste landfill site, sanitary landfill, unsanitary landfill, illegal landfill, digging landfill, circulation landfill, waste digging site, waste digging site, waste landfill site, mine site, polluted site, industrial complex, pollution complex, gas station Stabilization, odor stabilization, selective soil erosion, stabilization, and / or stabilization of objects or sites by extracting or re-injecting at least one of polluted water, pollutants, organic matter, leachate, polluted water, air, polluted air, gas, odor and smell , And sanitation.

The description of claim 7 is as follows. According to a seventh aspect of the present invention, there is provided a method of controlling a facility, a repairing space, an environmental facility, an environmental facility, a facility, a structure, A rotating body, a rotating body passage, a diaphragm passage, a venturi, a rotating body venturi, a diaphragm venturi, an outer circumferential passage, and a rotating body, which are mounted in a fixed, underwater, Compressing material, negative pressure material by at least one of an outer circumferential passage, a diaphragm outer circumferential passage, an inlet guide, an outlet guide, a blade opening, a rotary generator, a rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, Generating at least one of a compression material and a negative pressure material by at least one of a general compression device and a general negative pressure device using at least one of generating and externally providing, student At least one of electric power, compressed material, and negative pressure material is repaired by at least one of an electric power supply device, a compressed material supply device, a negative pressure material supply device, an electric compression material supply device, an electric negative pressure material supply device, A repair space, an environmental facility, an environmental space, or one or more of a liquid, a meteorological, and a solid state, Mixing, circulating, convection, de-icing, injection, extraction, extraction injection, exhalation, or the like of the object or the object itself, or at least one of liquid, vapor and solid constituting the object or the object or contaminant present or contained in the object or object , Which is treated with at least one of anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation and purification. Water tank, bathtub, water tank, flow control tank, manhole, water storage tank, water storage tank, water storage tank, water storage tank, water storage tank, And the repairing space is one or more of the following: a coast, a sea, a marine, a river, a river, a river, a river run, a river, a city, a waterway, a bath, a hot spring, a steam bath, a swimming pool, a fish farm, Wherein the environmental facility is one of a wastewater tank, a wastewater box, a sewage box, a liquid tank, a sewage tank, a sewage tank, an excellent tank, a purified water tank, a leachate tank, an inflow tank, a storage tank, , A sedimentation tank, a neutralization tank, a reaction tank, an aeration tank, a flocculation tank, a sedimentation tank, a sedimentation tank, a microorganism tank, an aerobic tank, an anaerobic tank, a denitrification tank, a digester tank, a thickener tank, a disinfection tank, Hoses, waterways, repair channels, waterways, waste landfills, sanitary landfills, unsanitary landfills In this study, we investigated the effects of leachate on the effluent and the amount of leachate in the leachate. Wherein the environmental space is one of a sewage tank, a wastewater storage tank, a sewage storage tank, a storm water storage tank, a water storage tank, a water storage tank, a water storage tank, a leachate storage tank, Water treatment plant, water treatment plant, wastewater treatment plant, sewage treatment plant, wastewater treatment plant, sewage treatment plant, storm water treatment plant, water treatment plant, water treatment plant, water treatment plant, leachate treatment plant, boiling point, river water filtration water storage tank, ground water storage tank, seawater storage tank, A polluted water treatment plant, a riverside filtration plant treatment plant, a groundwater treatment plant, and a seawater desalination plant.

The present invention relates to a rotating body, a rotor, a rotor passage, a diaphragm passage, a venturi, a rotator venturi, a diaphragm venturi, an outer passage, a rotor outer circumferential passage, a diaphragm outer passage, At least one of a compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space may be installed in one of a facility, a structure, an interior, an exterior and a periphery of a repair facility, Or in the form of a fixed body, an underwater body, an aqueous body, a glue body, a float, or a moving body, or installed in one of fixed, water, water, glide, floating, Lt; / RTI > Here, the fixed body is fixed to one of the ground, the structure, and the facility, the underwater body is an object in water, the glue body is an object that glides in the air like a bird and the float is a body such as a ship, boat, The object is a moving object such as a car, boat, boat, and the like. Here, the anchor is fixed to one of the ground, the structure or the facility, the underwater is in the water, the glide is gliding as the air in the atmosphere, and the glue is floating in the air such as a boat, boat, And the movement is to move such as a vehicle, ship, boat, and the like. In accordance with the present invention, a constituent for generating electricity, compressed matter, and negative pressure material of the present invention is installed in an underwater bridge, a hydrology gate, a river beam installed in a river, and the generated electricity, compressed material and negative pressure material are supplied to rivers, . FIG. 7 is a schematic view showing that a constituent for generating electricity, a compressing substance, and a negative pressure substance according to the present invention is mounted on a glue body or installed in a glide type. In Fig. 7, the left figure shows a front view of gliding, and the right figure shows a side view of gliding. FIG. 8 is a schematic diagram showing that a constituent for generating electricity, a compressing substance and a negative pressure substance according to the present invention is installed in an underwater form.

The present invention also includes the following contents. The present invention relates to a rotating body, a passage, a rotating body passage, a diaphragm passage, a venturi, a rotating body venturi, a diaphragm venturi, an outer diaphragm, a rotating body outer diaphragm, a diaphragm outer diaphragm, Compressing material, and negative pressure material by means of an apparatus constituted by at least one of a compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space, and to increase the amount of generated electricity Or in the case where the supply amount of electricity to be supplied is insufficient, it is possible to further generate electricity by adding a solar generator to the component, to increase the amount of generated at least one of the generated compressed material and the negative pressure material, If the supply of one or more of the substance, the negative pressure, is insufficient, one or more of the general compression device, the general negative pressure device, Generating at least one of a compression material, a compression material, and a negative pressure material by using at least one of a compression material, a compression material, and a negative pressure material; And at least one of the generated electricity, compressed material and negative pressure material is supplied to an electric supply device, a compressed material supply device, a negative pressure material supply device, an electrically compressed material supply device, an electric negative pressure material supply device, One or more of liquid, vapor, and solid phases constituting the object or target site itself, or one or more of liquid, vapor, and solid phases constituting the object or target site, Mixing, circulation, convection, de-icing, injection, extraction, extraction injection, exhalation, anaerobic, cleaning, Wherein the solar power generation device generates electricity using solar energy, and the solar power generation device is a solar power generation device, a solar power generation device, a solar power generation device, And the solar photovoltaic device is a device that generates electricity using solar light energy, and the solar thermal power generation device is a device that generates electricity using solar thermal energy.

In the present invention, the solar power generator 312 generates electricity using the sun, which is divided into a solar power generator and a solar power generator. This is illustrated schematically in Fig. Here, the photovoltaic power generation apparatus generates electricity using a solar cell, a storage battery, a power conversion apparatus, and the like. Here, the solar power generation apparatus is classified into an infrared type and a steam type, and the infrared type solar power generation apparatus includes a collector, And the steam type solar power generation apparatus generates electricity by a collector, a heat exchanger, a steam turbine, a condenser, a generator, and the like. Here, the photovoltaic device is a device for generating electricity by using solar energy installed in a place where the solar cell is located, such as a solar cell. By directly converting the light received by the solar cell into electricity, , A battery, and a power conversion device. When solar light is put into a solar cell that is a junction of a p-type semiconductor and an n-type semiconductor, holes and electrons in the solar cell In this case, the holes are collected toward the p-type semiconductor and the electrons are collected toward the n-type semiconductor. When the potential difference is generated, electricity is generated. The accumulator stores the generated electricity. The power conversion device converts the direct current into the alternating- It is a device that converts electricity to DC electricity.

In addition, the solar power generation apparatus is installed in the sun to generate electricity using the heat energy of the sun, and the solar power generation apparatus is divided into an infrared type and a steam type. Here, the infrared type solar power generation apparatus mainly includes a collector, , A generator, etc. Collectors collect the energy from the sun and convert them into heat. The simplest form of the collector is a flat collector tube that allows water to flow through a black tube that absorbs light. A transparent outer layer (glass or plastic) surrounds the black inner structure that absorbs light, creating a greenhouse effect. When light enters the heat sink, it collides with the inside of the black color and turns into infrared light. The infrared light passes through the transparent layer The interior is getting hotter because you can not do it, The heat medium exchanges heat with water to generate heating or hot water. The heat exchanger collects the heat, hot water, etc., which is the medium to be used in the use place, And the generator generates electricity using infrared rays generated from the collector. Here, the steam type solar power generation apparatus is composed of a collector, a heat exchanger, a steam turbine, a condenser, a generator, and collects solar heat using a collector that collects light in one place to heat the heating medium of the pipe wrapped in the absorber. The heating medium of the other pipe passing through the heat exchanger is heated and the heating medium is returned to the heat exchanger while consuming heat energy in the order of the steam turbine and the condenser in this order. In this process, electricity is generated, The condenser is a condenser, a condenser, or the like. The condenser cools the steam discharged from the steam turbine with water to condense or condensate. The generator generates electricity using kinetic energy provided from the steam turbine .

The description of claim 8 is as follows. According to a ninth aspect of the present invention, there is provided a rotary body installed, laid or installed in at least one of a fixed type, an underwater type, a water type, Generating at least one of electricity, a compressed material and a negative pressure material by at least one of a power generation device, a tidal power generation device, a wave power generation device, a compression power generation device, a negative pressure power generation device and a compression negative pressure generation device, At least one of the negative pressure substances may be at least one of a liquid phase, a vapor phase, and a solid phase by at least one of an electric supply device, a compressed substance supply device, a negative pressure substance supply device, an electric compression substance supply device, an electric negative pressure substance supply device, To a target object or a target site,

The rotating body 10 may be a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a spinning wheel, a wing car, a windmill, Common with wing, cone with wing, cone with wing, cone with wing, cone with spiral, cone with wing, cone with spiral, cone with wing, cone with wing, cone with spiral, top with wing, top with spiral, Wherein at least one of the rotary electric generator 23, the rotary compressor 24, the rotary negative pressure device 25 and the rotary compression negative pressure device 245 is connected to the rotary body 10, The rotary power generator 23 generates electric power by using the rotary motion of the rotary body. In this embodiment, the rotary power generator is composed of a converter and a generator, (10) through the inverter 1), and the rotation speed of the rotary motion is accelerated in the converter to be sent to the generator 102 to convert the mechanical energy into electrical energy in the generator to generate the electricity 5. The rotary compressor 24 Wherein the rotary compression device is constituted by at least one of the piston 112, the screw 113, and the cylinder 114, and the rotary compression device is constituted by at least one of the piston 112, the screw 113 and the cylinder 114, The rotary motion of the rotary body causes the piston 112 to linearly reciprocate through the connecting rod 111 via the crank 110 via the rotary shaft 100 to rotate the cylinder 114 and compressing the compressed air or compressed water to produce compressed material. In the case where the rotary compression device is composed of a screw and a cylinder, the rotary motion of the rotary body is transmitted to the rotary shaft 100, And rotates the screw 113 to rotate the screw to compress the air or water in the cylinder 114 to generate compressed air or compressed water of compressed water. The rotary negative pressure device 25 rotates the rotating body Wherein one embodiment of the rotary negative pressure apparatus is configured so that the rotary negative pressure apparatus is constituted by at least one of the piston 112, the screw 113 and the cylinder 114, The rotary motion of the rotary body causes the piston 112 to linearly reciprocate through the connecting rod 111 via the crank 110 via the rotary shaft 100 so that the air in the cylinder 114 When the rotary negative pressure device is constituted by a screw and a cylinder, the rotary motion of the rotary body rotates the screw 113 through the rotary shaft 100 And the air or water in the cylinder 114 is drawn while the screw rotates to generate negative pressure air or negative pressure negative pressure material,

The solar power generation apparatus is divided into a solar power generation apparatus and a solar power generation apparatus. The solar power generation apparatus is an apparatus that generates electricity by using solar energy, The power generation device is a device for generating electricity by using the thermal energy of the sun. The description of the solar power generation device is referred to in claim 12, and the tidal power generation device is a tandem- Wherein the wave generator generates electricity by using a rotational motion of a rotating body rotating by a wave force, a wave flow or a wave force, wherein the tidal power generator, the wave generator One example of the tidal power generation device is a tidal power generation device, the wave power generation device is composed of a conversion device and a generator, Is transmitted to the converter 101 through the front shaft 100 and accelerates the rotational speed of the rotational motion in the converter to the generator 102 to convert the mechanical energy into electrical energy at the generator to generate electricity 5, Here, the embodiment of the tide gauge car is a water level difference which occurs when tide is confined in tide and the tide is released during tide,

The compression power generation apparatus 40 generates electricity 5 using a compressed material 6 which is composed of at least one of a compression reservoir 120, a compression turbine 121 and a generator 102, This embodiment is to send the compressed material directly to the compression turbine or to store the compressed material in the compression reservoir through the hose 210 and to send the stored compressed material to the compression turbine to generate electricity in the generator connected to the compression turbine, The negative pressure generating device 41 generates the electricity 5 using the negative pressure material 7 and is composed of at least one of the negative pressure reservoir 122, the negative pressure turbine 123 and the generator 102, The embodiment is to send the negative pressure material directly to the negative pressure turbine or to store the negative pressure material in the negative pressure reservoir through the hose 220 and to send the stored negative pressure material to the negative pressure turbine to generate electricity in the generator connected to the compression turbine, The negative pressure generating device 42 generates the electricity 5 using the compressed material 6 and the negative pressure material 7 which are compressed by the compression reservoir 120, the negative pressure reservoir 122, the compressed negative pressure turbine 124, Generator 102, wherein the embodiment of the present invention is adapted to send compressed material and negative pressure material directly to a compressed negative pressure turbine, or to store the compressed material in a compression reservoir through a hose 210 and to compress the negative pressure material into a hose 220 to store the compressed material and the negative pressure material in the negative pressure pressure turbine to generate electricity in the generator connected to the compressed negative pressure turbine,

The electric supply device is composed of at least one of an electric wire, an electrode, and a heating wire, and the compressed substance supply device includes at least one of a hose 1, a hose control valve 1, a side line 1, a side line control valve 1, Wherein the negative pressure material supply device is constituted by at least one of a hose 2, a hose control valve 2, a side line 2, a side line control valve 2, and a suction pipe, , At least one of electrodes, a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing and a dispersing device indicator, At least one of the electrical supply wires and electrodes, the hose 2 as the negative pressure material supply, the hose control valve 2, the side line 2, the side line control valve 2, and the suction pipe The compressed negative pressure material supply device includes at least one of a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing and a dispersing device indicator, 2, a hose control valve 2, a side line 2, a side line control valve 2, and a suction pipe.

In this case, it is preferable that at least one of a rotating body, a rotary power generator, a rotary compressor, a rotary negative pressure generator, a rotary compression negative pressure generator, a solar power generator, a tidal power generator, a wave power generator, Examples are 1) a rotating body, a rotary power generator, a rotary compressor, a rotary negative pressure device, and a rotary compression negative pressure device, 2) a rotary body, a rotary power generator, a rotary compression device, a rotary negative pressure device, 3) Rotor, rotary generator, solar generator, tidal power generator, wave generator, 4) Rotor, rotary generator, solar generator, tidal power generator and wave generator 5) Rotary power generation device, rotary compression device, rotary negative pressure device, rotary compression negative pressure device and one of compression power generation device, negative pressure generation device and compression negative pressure generation device, 6) rotating body and rotary power generation device, rotary compression device, rotary negative pressure device , Rotary compression negative pressure 7) Both rotary and rotary power generation devices, solar power generation devices, tidal power generation devices and wave power generation devices, compression power generation devices, negative pressure power generation devices, compressed negative pressure power generation And 8) all of the rotating body, rotary power generation device, solar power generation device, tidal power generation device, and wave power generation device, and both of the compression power generation device, the negative pressure power generation device and the compression negative pressure power generation device.

Herein, fixed, installed or installed or mounted may be fixed to itself or attached to or mounted on a ground or a facility or structure, or supported on a ground or facility or structure, foundation, pile, column, platform, , Or at least one of them. The installation, laying, or installation in the water is self-contained, or installed, laid, or mounted on an object in water. The installation, laying or installation of the awards type is to be in the aquaplane itself, or to be installed, laid, or mounted on an object in the aquaplane. Mounting, laying, or mounting in the subtype is itself floated or installed, laid or mounted on water, air, suspended or floating objects in the atmosphere. It is installed, laid or installed in a glide type, is installed or laid on itself, or is installed, laid, or mounted on air, air, air, or airships. Mounted, laid, or mounted in a mobile type is installed, laid, or mounted on a vehicle, ship, boat, or the like, which is moving or moving.

9. The centrifugal separator according to any one of claims 3 to 8, wherein the rotor, the passage, the rotor passage, the diaphragm passage, the venturi, the revolving venturi, the diaphragm venturi, the outer circumferential passage, , An outlet guide, a blade opening, a rotary power generator, a rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, a negative pressure space, A rotary compression device, a rotary compression device, a rotary compression device, a rotary compression device, a rotary compression device, a rotary compression device, a rotary compression device, a rotary compression device, a rotary compression device, At least one of the compression and negative pressure devices, 3) at least one of the rotating body, the inlet guide, the venturi, the outer circumferential passage and the outlet guide, the rotary generator, the rotary compressor, the rotary negative pressure device and the rotary compression negative pressure device, chapter At least one of a rotary, a rotary compression device, a rotary negative pressure device, and a rotary compression negative pressure device, 5) at least one of a rotating body, a blade opening, a blade opening & One or more of a power generation device, a rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a compression space, a negative pressure space, 6) a rotating body, a blade opening, One or more of diaphragm venturi and one or more of outlet guide and rotary power generator, rotary compression device, rotary negative pressure device, rotary compression negative pressure device, compression space, negative pressure space, 7) rotating body, At least one of a passage, a rotor passage, and a diaphragm passage, at least one of an outlet guide and an outer passage, a rotor outer circumferential passage, and a diaphragm outer circumferential passage, an outlet guide and a rotary power generator, a rotary compression device, , Compression space, negative pressure space , At least one of a rotating body, a blade opening, a blade opening and rotating body, at least one of an inlet guide and a venturi, a rotary venturi, and a diaphragm venturi, an outlet guide and an inlet guide and an outer peripheral flow passage, And at least one of the outlet guide and the rotary power generation device, the rotary compression device, the rotary negative pressure device, the rotary compression negative pressure device, the compression space, and the negative pressure space, 2), 3), 4), 5), 3), 4), 5), 6), 7), 8) and one or more of general compression device and general negative pressure device. 1), 2), 3), 4), 5), 6), 7), 8) and 9) and at least one of a compression power generation device, a negative pressure power generation device, 6), 7), 8), 10) and one or more of an electric supply device, a compressed material supply device, a negative pressure material supply device, an electrically compressed material supply device, an electrical negative pressure material supply device, Applicable All.

The description of claim 9 is as follows. The exhaust gas recirculation system according to any one of claims 5 to 11, wherein the rotary body (10), the passage (11), the rotor passage (12), the diaphragm passage (13), the venturi (14) 15, a diaphragm venturi 16, an outer circumferential passage 17, a rotating outer circumferential passage 18, a diaphragm outer circumferential passage 19, an inlet guide 20, an outlet guide 21, a blade opening 22, (5) by at least one of the device (23), the rotary compression device (24), the rotary negative pressure device (25), the rotary compression negative pressure device (245), the compression space (26) (6) and / or the negative pressure material (7), 1) the rotating body itself or the blade opening opening (22-1), the rotating body passage, the rotating body venturi, An inlet guide or a wing membrane is attached to the outer periphery of the front surface of the rotating body, wherein the rotating body itself or the blade opening opening portion 22-1, the rotor passage, the rotary venturi, The outer periphery of the rotating body , Or an outlet guide, or additionally, an inlet guide or a wing membrane is attached to the outer periphery or the outer periphery thereof, 1) the rotating body may be provided on its own and, furthermore, on its outer periphery or on the outer periphery thereof, 2) the rotating body is provided in the opening portion 22-1 of the blade opening, and the inlet guide or the blade membrane is attached to the outer periphery or the outer periphery thereof; 3) The inlet guide or the wing membrane is attached to the outer periphery or the outer periphery of the venturi, the outer periphery of the rotating body, and the outlet guide, and 4) the rotor is attached to the rotor passage, , And the outlet guide, (5) the rotating body is installed in the rotating body passage, (6) the rotating body is installed in the outlet guide, and Only one or more of the rotor, the venturi, and the outlet guide of the rotor outer circumferential flow path, which are provided in the rotor passage, the rotor of the venturi, and the outer circumferential flow passage of the rotor, And the rotator is installed at the end of the exit guide or at the end of the end of the guide of the exit guide. It is installed in the above, or additionally installed, or installed The outer periphery of the front face is the outer periphery of the front face of the rotary body or the front face of the outer periphery of the rotary body, If an inlet guide or a wing membrane is attached to the outer periphery or the outer periphery thereof, the inlet guide or the blade opening face The rotation of the rotating body 10 is rotated by itself or an external force, and the rotation of the rotating body 10 is rotated by itself or an external force, Here, the external force corresponds to a force externally or externally acting such as fluid, wind, wind force, air, water, gas, gas, hydraulic force, wave force, At least one of the rotary generator device 23, the rotary compressor device 24, the rotary negative pressure device 25 and the rotary compression negative pressure device 245 is connected to the rotary generator, Wherein the rotary generator, the rotary compressor, the rotary negative pressure device, and the rotary compression negative pressure device are each constructed by rotating the rotary body to generate electric and compressible substances, , To produce negative pressure material Wherein the rotary power generation device generates electricity by using the rotary motion of the rotating body, and the rotary compression device is a device that generates a material of compression or pressure using the rotary motion of the rotating body, At least one of the rotary power generation device, the rotary compression device, the rotary negative pressure device, and the rotary compression negative pressure device is connected to the rotary body so as to rotate the rotary body provided on the rotary shaft of the rotary body The shape of the rotating body may be a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a spinning wheel, a wing car, Windmill, aberration, cylinder with wing, cylinder with spiral, common during wing, common during spiral, wing cone, cone with spiral, wing attachment cap, spiral attachment Wherein the vertical blade, the horizontal blade, and / or the blades are formed of a cone, a wing attachment cone, a spiral attachment cone, a wing attachment cone, a spiral attachment cone, a wing attachment top, The shape, installation, or arrangement of the blade is a vertical and horizontal blade. The wing attachment and the spiral attachment are each attached with one or more wings or spirals, The external force such as air, water, gas, gas, water, wave, and tidal force impacts on the wing and spiral to provide an effect of improving the rotational force. 9) is preferably in the range of 0 to 89.999 degrees with respect to the horizontal or vertical direction as shown in FIG. 9, and the attachment angle of the wings and the spiral is preferably in the range of Most preferably, at an angle that maximizes the rotation of the rotating body by an external force,

2) The passage among the passage 11, the rotor passage 12 and the diaphragm passage 13 is a passage through which the substance passes or flows. The rotor passage is connected to one or more of the middle, And the diaphragm passage is a passage in which the diaphragm (29) is provided at one or more of the middle and the outlet of the passage, wherein the rotor passage is formed in at least one of the middle, Wherein the diaphragm is provided with a diaphragm (29) at one or more of the middle and the outlet of the inside of the passage, and the diaphragm is installed as a passage provided with the diaphragm (29) The passage is clogged so that the inflow can not pass and the inflow into the front portion of the passage is compressed to generate compressed material such as compressed air and is not passed through the rear portion of the diaphragm And one side of at least one of the passage, the rotor passage, and the diaphragm passage is free space or attached to the outer periphery of the rear face of the rotor or the opening of the blade opening, or in addition, the outlet guide is attached to the other side Wherein at least one of the passage, the rotor passage, and the diaphragm passage is free space or attached to the rear outer periphery or the blade opening of the rotor, or in addition, the outlet guide is attached to the other side thereof , 1) at least one of the passages, the rotor passages, and the diaphragm passages is free space and the exit guide is attached to the other side thereof, 2) at least one of the passages, the rotor passages, One of which is attached to the outer periphery and in addition to which the outlet guide is attached to the other; 3) one or more of the passages, the rotor passages, 4) one or more of the passages, the rotor passages, and the diaphragm passages are attached to the openings of the blades, 5) the passages, the rotor passages, the diaphragms One or more of the passages may be attached to the outer periphery of the rear surface of the rotating body and the like, wherein the free space represents a free state in which nothing is installed or attached, and at least one of the passages, Wherein one of the spiral, screw, comb, and blade is attached or not attached to the inside of the rotor passage, wherein the outer circumference of the front surface represents the outer circumference of the front surface, Air or water flows in or out, and on the contrary, the outer periphery of the rear surface represents the outer periphery of the rear, where the rear or back is the inflowing oil The attachment of one of the spirals, screws, combs, or blades to the inside of the rotor passage is caused by the passage of the rotor material through the rotor passage, , The fluid, the wind, the wind, the air, the water, the gas, the gas, the hydraulic power, the wave, the tidal force, etc. are rotated by the screw, the comb, the blade, The angle α at which one of the spiral, the screw, the comb, and the blade is attached to the inside of the rotor passage is set to be either horizontal or vertical as shown in FIG. 10 And the angle at which one of the spiral, the screw, the comb, and the blade is attached is such that the fluid or the like to be passed is attached at such an angle as to cause the largest vortex, etc. And at least one of a rotary generator, a rotary compressor, a rotary negative pressure device, and a rotary compression negative pressure device is connected to the rotary body installed in the rotary passageway, wherein the rotary electric generator, the rotary compressor, The rotary compression negative pressure apparatus generates electricity, a compressed material, and a negative pressure material by using rotational motion of the rotating body, and generates at least one of an inlet guide, an outlet guide, a diaphragm forward portion, and a diaphragm rear portion of the passage, At least one of a compression space, a negative pressure space, a compression power generation device, a negative pressure generation device, and a compression negative pressure generation device is present or mounted, wherein the compression space is a space in which a pressure is larger than a pressure Since the compressed space is compressed or pressurized by the material introduced by the diaphragm when the diaphragm is present, The inlet guide provided at the inlet of the diaphragm passage corresponds to the diaphragm at one or more of the middle and the outlet of the diaphragm passage so that not only the front portion of the diaphragm but also the inlet guide provided at the inlet of the diaphragm passage Where the incoming material may be a fluid, wind, air, water, gas, gas, etc., where the negative pressure space is defined as the pressure at which the incoming material spreads or is at a pressure As the space, the negative pressure space corresponds to an outlet guide provided at the rear of the diaphragm of the diaphragm passage, the passage or the rotor passage, or the outlet of the diaphragm passage, in which, in the case of the diaphragm passage, Since the material introduced by the diaphragm can not flow, it is necessary to extend not only the rear portion of the diaphragm but also the outlet guide provided at the exit of the diaphragm passage And the outlet guide provided at the outlet of the passageway without the diaphragm or at the exit of the rotor passage is a widening section that is wider than the cross sectional area of the passageway or rotor passageway while the flow rate of the substance is slow, Because of the free space, the flow velocity is high, and due to the relative velocity difference or pressure difference between them, a negative pressure is generated in the exit guide which is an extended section of the passage or the rotating body passage. Here, the flowing substance is fluid, wind, air, , Gas and so on.

The compression power generation device 40, the negative pressure generation device 41, and the compression negative pressure power generation device 42 generate electricity using at least one of a compression material and a negative pressure material generated in a compression space, a negative pressure space, or the like. This is illustrated in detail in FIG. The compression and power generation apparatus is composed of a compression reservoir, a compression turbine, a generator, and the like, stores compressed material such as compressed air generated in the compression space through a hose in a compression reservoir, To generate electricity from the generator. The turning of the compression turbine is such that the turbine rotates by applying a compression material such as compressed air to the eccentricity of one side of the turbine and the turbine rotates by applying compression material such as compressed air to opposite sides of the turbine in opposite directions . Here, the negative pressure generator is composed of a negative pressure reservoir, a negative pressure turbine, a generator, and the like. The negative pressure material such as vacuum generated in the negative pressure space is stored in the negative pressure reservoir through the hose and the negative pressure turbine is rotated And send it to the generator to generate electricity from the generator. Here, the negative pressure turbine is rotated by applying a negative pressure material such as vacuum to the eccentric side of the turbine, as in the case of a compression turbine. The negative pressure material such as vacuum is applied to both sides of the turbine, And the like. Here, the compression negative pressure generator stores compressed substances such as compressed air generated in a compression space in a compression reservoir through a hose, stores negative pressure substances such as vacuum generated in the negative pressure space in a negative pressure reservoir through a hose, And a negative pressure material such as a vacuum to generate electricity in the generator by turning the compression negative pressure turbine and sending it to the generator. Here, the compression negative pressure turbine is rotated by applying compression material such as compressed air and a negative pressure material such as vacuum to one side of the compression negative pressure turbine to increase the eccentricity force to rotate the compression negative pressure turbine, A compressed negative pressure turbine is rotated by applying a negative pressure material such as vacuum to the other side of the turbine, a compression material such as compressed air is applied to one half side of the turbine, a negative pressure material such as vacuum is applied to the other half side of the turbine, And so on.

3) Among the venturi (14), the revolving venturi (15) and the diaphragm venturi (16), the Venturi is a flow passage having a smaller inlet cross section than the previous Venturi, and the revolving venturi is connected to at least one of the middle, Wherein at least one of the venturi, the revolving venturi, and the diaphragm venturi has an inlet attached to an outer periphery of the rotating body, And an outlet guide is attached to the other side of the guide, or an exit guide is attached to the other side of the opening guide, and at least one outlet guide of the venturi and the revolving venturi is provided with or without a rotating body, , One of the screw, comb and blade (28) is attached or not attached, wherein the spiral, screw, comb, blade Is attached to the revolving venturi and the material, fluid, wind, wind, air, water, gas, gas, water, power, tidal force, etc. passing or flowing through the revolving venturi is rotated by spiral, screw, And to increase the rotational force of the rotating body installed at one or more of the middle, outlet, and outlet guides of the rotating venturi. The rotating body installed in the rotating body ventilator includes a rotary power generator, a rotary compressor, Wherein at least one of an inlet guide, an outlet guide, a diaphragm front portion, and a diaphragm rear portion of at least one of the venturi, the rotary venturi, and the diaphragm venturi is connected to at least one of compression negative pressure devices, A negative pressure generating device, a compression negative pressure generating device, and a negative pressure generating device, wherein the compression space, the negative pressure space, the compression power generation device, 2) It is explained by changing the passage of only terminology, rotor passage, venturi from venturi, revolving venturi, and diaphragm venturi to the same contents as those mentioned in passage, rotor passage and diaphragm passage.

4) The outer circumferential passage among the outer circumferential passage 17, the outer circumferential outer circumferential passage 18 of the rotating body, and the outer circumferential passage 19 is formed as a passage formed in the outer periphery of at least one of the passage, the rotor passage, the diaphragm passage, the venturi, And the outer circumferential flow path of the rotating body is a flow path provided with at least one of the middle, outlet and outlet guides of the outer circumferential flow path, and the diaphragm outer circumferential flow path is a flow path in which the diaphragm is provided at one or more of the middle, At least one of the outer circumferential passage, the outer circumferential passage of the rotating member and the outer circumferential passage of the diaphragm is a free space or attached to an opening of an inlet guide or a blade opening, or an outlet guide is attached to the other end thereof, A rotary body is installed or not installed in at least one of the outlet guides of the rotary body outer peripheries, and one of the spiral, screw, comb, The attachment of one of the spiral, the screw, the comb, and the blade to the inside of the circumferential outer circumferential passage of the rotating body is not adhered to or attached to the circumferential outer circumferential passage, , Water, gas, water, hydraulic power, tidal force, or the like is rotated by a screw, a screw, a comb, a blade or the like to increase the rotational force of the rotating body installed at one or more of the middle, Because. Wherein at least one of a rotary generator, a rotary compression device, a rotary negative pressure device, and a rotary compression negative pressure device is connected to the rotary body provided in the outer circumferential flow path of the rotary body, and at least one inlet guide Wherein at least one of a compression space, a negative pressure space, a compression power generation device, a negative pressure generation device, and a compression negative pressure generation device is present or mounted in at least one of an outlet guide, an outlet guide, a diaphragm front portion, The negative pressure generating device, the negative pressure generating device, and the compression negative pressure generating device have the same contents as those mentioned in the passage, the rotor passage and the diaphragm passage, and only the term passage, rotor passage, outer passage in the diaphragm passage, The description will be made by changing to the diaphragm outer circumferential flow path.

5) The inlet guide 20 is a flow path having one side wide and the other side having a relatively narrow cross-sectional area, one side of which is a free space or attached to at least one of the outer periphery of the rear face of the rotor and the opening of the blade opening, The outer periphery of the entire front surface of the passage, the outer periphery of the front surface of the passage, the outer periphery of the front surface of the diaphragm passage, the outer periphery of the venturi, the outer periphery of the venturi, One or more of the outer circumference of the front surface of the passage and the outer circumference of the front surface of the diaphragm outer circumferential passage are attached to the outer circumference of the outer circumference of the diaphragm. The outer circumference of the front surface of the rotor, the outer circumference of the front surface of the rotor passage, the outer circumference of the front surface of the diaphragm passage, the outer circumference of the front surface of the venturi, Wherein at least one of an outer periphery of the diaphragm venturi, a front periphery of the diaphragm venturi, a front periphery of the outer periphery, a front periphery of the outer periphery of the outer periphery of the rotating body, and a front periphery of the diaphragm outer periphery flow path, A compression power generation device is connected to the inlet guide, where the compressed material generated in the inlet guide is transmitted to the compression and power generation device through the hose to generate electricity, and a large one side of the inlet guide and a narrow one side The angle α is 0 to 89.999 ° with respect to the horizontal or vertical direction. The angle α of 0 to 89.999 ° with respect to the horizontal or vertical angle α between the wide one side and the narrow side of the inlet guide, So you can refer to it. Here, the shape of the inlet guide is effective, such as a cone, a cone, a cap, a funnel, and a hood having a triangular, square, rectangular, polygonal, circular, elliptical, When the inlet guide is compared to a cone, a cone, a cap, a funnel, or a hood, it can be explained that the cone, the cone, the cap, the funnel, and the hood are wide and the other side is a channel having a relatively narrow cross-sectional area. Here, the installation angle of the inlet guide or the angle between the wide one side of the inlet guide and the narrow one side is 0 to 89.999 ° with respect to the horizontal or vertical direction, and the angle forming the shape of the cone, cone, cone, funnel, .

6) The outlet guide 21 is a channel having a narrow side on one side and a relatively wide cross sectional area on the other side, and one side of the channel is formed on the outer periphery of the rear surface of the passage, the outer periphery of the rear surface of the rotor passage, the outer periphery of the rear surface of the diaphragm passage, A rear outer periphery of the venturi, a rear outer periphery of the diaphragm venturi, a rear outer periphery of the outer periphery passage, a rear outer periphery of the outer periphery of the rotating body, and a rear outer periphery of the diaphragm outer periphery passage, and the other side thereof is free space or none A negative pressure generating device is connected to the outlet guide when the negative pressure material is generated in the outlet guide and electricity is generated using the negative pressure material. Here, the negative pressure material generated in the outlet guide is transmitted to the negative pressure generating device through the hose, When the rotating body is rotated by using the passing material flowing through the inner space of the outlet guide, the outlet Wherein the passage material flowing through the inner space of the outlet guide is the same as the flowing substance of the introduced fluid, wind, water, etc., and the rotating body 10 installed in the inner space of the outlet guide, At least one of the rotary generator device 23, the rotary compressor device 24, the rotary negative pressure device 25 and the rotary compression negative pressure device 245 is connected to the rotary generator, The installation angle of the exit guide or the angle between the narrow side of the exit guide and the wide side is 0 to 89.999 degrees with respect to the horizontal or vertical, The shape of the exit guide is effective, for example, a cone, cone, cap, funnel, or hood having a triangular, square, rectangular, polygonal, circular, elliptical, or round cross section. When the outlet guide is compared to a cone, a cone, a cap, a funnel, or a hood, the cone, the cone, the cap, the funnel, and the hood are narrow and the other is a channel having a relatively wide cross-sectional area.

7) The blade opening 22 is one of a fluid film, a windshield, a water film, a tea oil film, a car windshield, a windshield film, a windshield film, a windshield film, a waterproof film, a collector film, a windshield film, Wherein the openings are openings, openings, holes, slots, slits, holes, passages, flow paths, and spaces, and the openings of the openings (22-1) In the case where one of the whole, the passage, the rotor passage, the diaphragm passage, the venturi, the rotary venturi, the diaphragm venturi, the outer circumferential passage, the outer circumferential passage of the rotary body, the diaphragm outer circumferential passage and the inlet guide is attached or positioned, The fluid, wind, air, water, gas, gas, etc., which is directed toward or collided with the opening of the blade, increases in speed through the opening and flows quickly. Accordingly, the rotating speed and the passing speed of the rotating body, the passage, the venturi, and the outer peripheral flow passage connected to the opening portion of the blade are increased. Fig. 15 is a schematic view showing a blade opening and an opening according to the present invention.

8) The rotary power generator 23 generates electricity using the rotary motion of the rotary body. One application of the rotary power generator is that the rotary power generator is composed of a converter and a generator, Is transmitted to the converter 101 through the inverter 100 and accelerates the rotational speed of the rotary motion in the converter to the generator 102 to convert the mechanical energy into electrical energy at the generator to generate electricity 5, 17, wherein the rotating body corresponds to the rotating body itself, and the rotating body installed in at least one of the rotating body passage, the rotating body venturi, and the rotating body outer peripheral flow path. Here, the conversion apparatus and the generator may be the conventional commercialized apparatuses or apparatuses. Here, the generation of electric power by the rotary power generator will be described. The rotary power generator is composed of a converter, a generator, and the like. The rotary power of the rotary body rotated by one of fluid, And is transmitted to a transmission or a gear box, amplified by a rotational speed required by the generator, and the generator converts mechanical energy into electrical energy to produce electricity. In addition to the generator, the inverter can be configured to convert the generated DC into AC or AC into DC.

9) The rotary compression device 24 is a device for generating a compressed material by using the rotary motion of the rotary body. One application of the rotary compression device is that the rotary compression device includes a piston 112, a screw 113, a cylinder 114 The rotary motion of the rotary body is transmitted to the piston 112 via the connecting rod 111 via the crank 110 via the rotary shaft 100, ) To linearly move the cylinder 114 to compress air or water in the cylinder 114 to compress the compressed air or compressed water to produce compressed material. In the case where the rotary compression device is composed of a screw and a cylinder, The screw 113 is rotated through the rotary shaft 100 so that the screw rotates to compress the air or water in the cylinder 114 to produce compressed air or compressed water compressed material as shown in Figure 18, , Where the rotating body has a rotating body installed in the rotor itself, and a rotating body passage, the rotating body venturi, at least one of the rotating body is the outer flow path. The pistons, screws, cylinders, connecting rods, etc., can be used with existing commercialized devices or devices. Hereinafter, when the rotary compression device is constituted by a piston and a cylinder, the rotary motion of the rotary body is converted into reciprocating linear motion to generate compressed air of compressed or pressurized material. The connecting rod connected to one end of the crank is subjected to reciprocating linear motion by the rotation of the crank and the piston connected to the other end of the connecting rod is reciprocated in the reciprocating line of the connecting rod In the one-sided linear motion of the reciprocating linear motion of the piston, the piston moves along the inside of the cylinder at the initial position, and the air or water in the cylinder is fed toward the one end of the cylinder. In this case, the valve attached to the piston is closed and compressed air or When the piston at one end of the cylinder is displaced from the compressed position to the initial position, the valve attached to the piston is opened so that the piston smoothly returns to its original position, As described above, the reciprocating linear motion of the piston in accordance with the rotation of the rotating body repeatedly progresses the initial position and the one-end position of the piston by the reciprocating linear motion of the piston, thereby continuously producing compressed air or compressed water. Here, the hose is connected to one end of the cylinder, so that compressed air or compressed water is generated at one end of the cylinder as the internal air or water at one end of the cylinder is compressed by the piston. Therefore, Compressed air or compressed water is supplied to the compressed material supply device and the hose is connected to the object or the object to supply compressed air or compressed water of compressed material to the object or the object itself or the material constituting the object or the object.

10) Rotary negative pressure device 25 is a device for generating negative pressure material by using rotational motion of a rotating body. One application of the rotary negative pressure device is that the rotary negative pressure device includes a piston 112, a screw 113, a cylinder 114 The rotary motion of the rotary body is transmitted to the piston 112 via the connecting rod 111 via the crank 110 and the rotary shaft 100. In this case, ) To generate negative pressure air or negative pressure water by pulling air or water in the cylinder (114) by reciprocating linear motion, and in the case where the rotary negative pressure device is constituted by a screw and a cylinder, 100 to rotate the screw 113 to draw air or water in the cylinder 114 while rotating the screw to generate negative pressure air or negative pressure negative pressure material, The rotary motion of the rotating body causes the piston to linearly reciprocate through the connecting rod through the connecting rod to generate air or water of the vacuum by pulling air or water in the cylinder contrary to the rotary compression device. When the rotary negative pressure device is composed of a screw and a cylinder, the rotary motion of the rotary body rotates the screw in the opposite direction to the rotary compression device through the rotary shaft, and the screw rotates to pull air or water in the cylinder to generate vacuum air or negative pressure . Here, the rotating body corresponds to a rotating body installed in at least one of the rotating body itself, the rotating body passage, the rotating body venturi, and the rotating body outer peripheral flow path. The pistons, screws, cylinders, connecting rods, etc., can be used with existing commercialized devices or devices. Hereinafter, an embodiment of converting a rotary motion of a rotary body into reciprocating linear motion to generate a negative pressure or a vacuum material in the case where the rotary negative pressure device is composed of a piston and a cylinder will be described in more detail. The connecting rod connected to one end of the crank is reciprocatingly linearly moved by the rotation of the crank and the piston connected to the other end of the connecting rod is reciprocated by the reciprocating linear motion of the connecting rod When the piston reciprocates linearly in one direction and the other in the cylinder and moves in one direction in the cylinder while the piston moves in the cylinder at the initial position in the linear motion in one direction during reciprocating linear motion of the piston, The piston is opened without resistance, and the linear motion of the piston in the other direction during the reciprocating linear motion In this case, the valve attached to the piston is closed so that the piston pulls air or water in the cylinder, so that vacuum negative pressure air or negative pressure negative pressure material is produced. As described above, The negative pressure air or the negative pressure of the vacuum is continuously generated while the piston repeatedly moves to the initial position and the one-end position by the reciprocating linear motion of the piston in accordance with the rotation of the piston. Since the hose is connected to one end of the cylinder, internal air or water at one end of the cylinder is pulled by the piston, so that vacuum, negative pressure air or negative pressure water is generated at one end of the cylinder, Vacuum, negative pressure air, or surplus water is generated in the negative pressure material supply device, and the hose is connected to the object or the object to supply vacuum, negative pressure air, or negative pressure water to the object or object.

Here, the negative pressure air or the negative pressure water is generated by pulling air or water in the cylinder by the rotary negative pressure device, and the generated negative pressure air or the negative pressure water is supplied to the object or the object through the hose connected to one end of the cylinder, In order to supply vacuum or negative pressure air to the object or the object through the hose connected to the cylinder, vacuum or negative pressure air is generated in the cylinder. In order to supply air or vacuum to the object or the object, It is preferable that the inside of the cylinder and the hose should be filled with water and that the object or the object is composed of a liquid phase in order that the auxiliary seawater is supplied to the object or the object through the hose connected to the cylinder. The rotary power generator 23, the rotary compressor 24 and the rotary negative pressure generator 25 are the same as those of the rotary power generator of the present invention shown in Fig. 16, the rotary venturi, 17 is a schematic diagram showing details of a rotary power generator, a rotary compression apparatus, a rotary negative pressure apparatus according to the present invention shown in Fig. 17, a schematic diagram showing the details of a rotary compression apparatus and a rotary negative pressure apparatus according to the present invention shown in Fig. And the like.

11) The rotary compression negative pressure apparatus 245 is a device for generating a compressed material and a negative pressure material by using the rotary motion of the rotary body. In one application of the rotary compression negative pressure apparatus, the rotary compression negative pressure apparatus is a piston (112) 113 and the cylinder 114. In the case where the rotary compression and negative pressure device is constituted by a piston and a cylinder, the rotary motion of the rotary body is transmitted to the connecting rod (not shown) via the crank 110 via the rotary shaft 100 111 to reciprocate the piston 112 to compress the air or water in the cylinder 114 while compressing the compressed air to produce a compressed material of compressed air or compressed water, A negative pressure is generated in contrary to the compression, so that air or water is pulled to generate negative pressure air or negative pressure water, and in the case where the rotary compression negative pressure apparatus is composed of a screw and a cylinder The entire rotary motion rotates the screw 113 through the rotary shaft 100 so that the screw rotates to compress the air or water in the cylinder 114 to one side to generate compressed air or compressed water of compressed water, The other side of the opposite side rotates the screw to draw air or water in the cylinder 114 to generate negative pressure air or negative pressure water.

Here, the rotary compression negative pressure device 245 is an apparatus for generating a compressed substance and a negative pressure substance by using the rotary motion of the rotary body, and it is easy to understand that the rotary compression device 24 and the rotary negative pressure device 25 are combined, One application of the rotary compression negative pressure apparatus is that a rotary compression negative pressure apparatus is constituted by at least one of a piston 112, a screw 113 and a cylinder 114 and composed of a piston and a cylinder or a screw and a cylinder, When the apparatus is constituted by a piston and a cylinder, the rotary motion of the rotary body causes the piston 112 to linearly reciprocate through the connecting rod 111 via the crank 110 via the rotary shaft 100, ) Compressed by compressing the air or water in the compressed air or compressed water to generate compressed material of the compressed air or compressed water, Pressure air or negative pressure water is generated by pulling air or water and one side of the cylinder is compressed by the reciprocating linear motion of the piston to generate a compressed material and at the same time negative pressure is generated on the other side of the cylinder, In the case where the rotary compression and negative pressure device comprises a screw and a cylinder, the rotary motion of the rotary body rotates the screw 113 through the rotary shaft 100 to compress the air or water in the cylinder 114 to one side while the screw rotates The compressed air or the compressed water is compressed. At the same time, the screw is rotated on the opposite side of the one side to draw air or water in the cylinder 114 to generate negative pressure air or negative pressure material, As a result, one side of the cylinder is compressed and a compressed material is generated. At the same time, the other side of the cylinder is depressurized, The quality is produced. 24 is a schematic view showing a rotary compression negative pressure apparatus according to the present invention.

In order to generate a compressed material and a negative pressure material in the cylinder in the rotary compression device 24, the rotary negative pressure device 25 and the rotary compression negative pressure device 245 or to generate a compressed material and a negative pressure material in the cylinder, Air holes, water holes, etc. may be formed in the cylinder for transporting and transporting the compressed and / or reduced-pressure substances generated in the cylinder, or air hoses, water hoses, etc. may be connected or attached to the cylinders. As an example of this, the compressed material and the negative pressure material generated in the cylinder may have a structure that is moved to the outside through the air hole formed in the cylinder, the air hole connected with the water hole and the water hose, and the like. In addition, depending on the movement of the piston or screw in the cylinder, compressed or negative pressure material is generated, or the air hole formed in the cylinder for producing the compressed material and the negative pressure material in the cylinder, It is desirable to have an opening / closing function for opening and closing the door.

12) The compression space 26 has a pressure greater than the pressure at which the material entering or entering the at least one of the diaphragm forward portion of the diaphragm passage, the diaphragm forward portion of the diaphragm venturi, the diaphragm forward portion of the diaphragm outer peripheral flow passage, Here, the compressed material is generated in the space. Here, the diaphragm passage, the diaphragm venturi, and the diaphragm outer circumferential passage are provided with a diaphragm in at least one of a passage, a venturi, In the front part of the diaphragm of the diaphragm outer circumferential channel and the diaphragm outer circumferential channel, the pressure is larger than the pressure at which the inflow material is compressed or introduced, and thus the compressed material is generated. Also, the inlet guide provided at the front of the diaphragm forward part of the diaphragm passage, the diaphragm front part of the diaphragm venturi, and the front part of the diaphragm outer part of the diaphragm outer circumferential passage generates compression material even in the inlet guide because the diaphragm flows through the diaphragm. The influent material is fluid, wind, air, water, gas, or gas. The hose is connected to the compression space and is transported or supplied through a hose to a place where compressed air such as compressed air or compressed water is required. Here, at least one of a compression power generation device and a compression negative pressure power generation device that generate electricity using a compression material can be connected, connected, or mounted in the compression space.

13) The negative pressure space 27 is formed by spreading or passing the substance from at least one of the diaphragm rear portion of the diaphragm passage, the diaphragm rear portion of the diaphragm venturi, the diaphragm rear portion of the diaphragm outer peripheral passage, the exit guide, the venturi, Or a space in which the pressure is smaller than the pressure to be introduced or passed, wherein a negative pressure material is produced.

Here, the diaphragm passage, the diaphragm venturi, and the diaphragm outer diaphragm are provided with a diaphragm in at least one of a passage, a venturi, and a middle or an outlet inside the outer passage. The diaphragm rear portion, the diaphragm ventral portion of the diaphragm venturi, In this part, the pressure is lower than the pressure at which the incoming or passing substance spreads or is passed or passed. In this case, negative pressure material is produced. In addition, since the outlet guide portion provided at the rear of the diaphragm of the diaphragm passage, the diaphragm rear portion of the diaphragm venturi, and the rear portion of the diaphragm outer periphery of the diaphragm outer circumferential passage has no material to be infiltrated or passed by the diaphragm, In this space, a negative pressure substance such as a vacuum is generated. In addition, since the outlet guide is an extended section installed at the outlet of the passage, the venturi, and the outer flow passage, the flow rate of the fluid such as the fluid is slow while the flow rate of the fluid such as the fluid outside the outlet guide is fast. And so on. And the venturi and the revolving venturi are smaller than the inflow area, and the negative pressure is generated because the velocity of the material passing through the venturi is fast. Herein, the influent or passing substance includes fluid, wind, air, water, gas, gas and the like. The hose is connected to the negative pressure space and is transported or supplied through a hose to a place where negative pressure substances such as vacuum, vacuum air, and negative pressure water are required. Here, at least one of a negative pressure generating device and a compression negative pressure generating device that generate electricity using a negative pressure material may be connected, connected, or mounted in the negative pressure space.

9 is a schematic view showing a structure of a rotating body, a passage, a venturi and the like according to the present invention shown in Fig. 9, a schematic view showing a structure of a rotating body, a rotating body passage, 11 is a schematic view showing a configuration of a rotating body, a diaphragm passage, diaphragm venturi, and the like according to the present invention. 11 shows a structure in which constituents such as a rotating body, a diaphragm passage, a diaphragm venturi, etc. are tightly coupled to each other and fixed on the ground. As described above, the constituent device of the present invention can be mounted on and fixed to one of a fixed body, an underwater body, an aqueous body, a glue body, a float or a moving body, or fixed on a ground, a structure, , Or moving.

The description of claim 10 is as follows. Claim 10 is a process according to any one of claims 5 to 11, characterized in that at least one of the produced, externally provided and at least one compressed and / or negative pressure material is used to produce the compression power generation device (40), the negative pressure power generation device (41) 12, 13, 14, and so on, 1) the compressing / generating device 40 is used to generate electric power by using at least one of the compressing and negative pressure generating devices 42, Which may consist of one or more of a compression reservoir 120, a compression turbine 121 and a generator 102 to direct the compressed material directly to the compression turbine or to compress the compressed material to the hose 210. [ Wherein the compressing material is stored in a compression reservoir and sent to a compression turbine to generate electricity in a generator connected to the compression turbine wherein an embodiment of generating electricity using the turbine and the generator in the compression generator is directly applied to the compression turbine On one side Or the compressed material is temporarily stored in a compression reservoir and the stored compressed material is applied to one side of the compression turbine to turn the turbine or the compressed material is immediately applied to both sides of the compression turbine or the compressed material is once stored in the compression reservoir and stored The compressed material is applied to both sides of the compression turbine, turning the turbine, and sending it to the generator to generate electricity in the generator.

2) The negative pressure generating device 41 generates the electricity 5 using the negative pressure material 7 and is composed of at least one of the negative pressure reservoir 122, the negative pressure turbine 123 and the generator 102, The negative pressure material is directly sent to the negative pressure turbine or the negative pressure material is stored in the negative pressure reservoir through the hose 220 and the stored negative pressure material is sent to the negative pressure turbine to generate electricity in the generator connected to the compression turbine, Embodiments of generating electricity using a turbine and a generator may include applying a negative pressure material directly to one side of a negative pressure turbine or storing a negative pressure material in a negative pressure reservoir once and applying the stored negative pressure material to one side of the negative pressure turbine to rotate the turbine, Pressure material to the both sides of the negative pressure turbine or the negative pressure material is temporarily stored in the negative pressure reservoir and the stored negative pressure material is applied to both sides of the negative pressure turbine to rotate the turbine, Sending to generate electricity in a generator.

3) The compression negative pressure generating device 42 generates the electricity 5 using the compressed material 6 and the negative pressure material 7, which includes the compression reservoir 120, the negative pressure reservoir 122, the compressed negative pressure turbine 124, and a generator 102 to send compressed material and negative pressure material directly to the compressed negative pressure turbine, or to store the compressed material in the compression reservoir through the hose 210 and compress the negative pressure material into the hose 220, And the stored compressed material and the negative pressure material are sent to the compressed negative pressure turbine to generate electricity in the generator connected to the compressed negative pressure turbine.

Here, an embodiment of generating electric power using a turbine and a generator in a compression-negative-pressure electric power generator uses a compression substance and a negative-pressure substance directly or uses a compression substance and a negative-pressure substance from a compression storage negative pressure storage container in which a compression substance and a negative- 1) compressing the negative pressure turbine by applying negative pressure material to the other side of the compressed material to increase the rotational energy to rotate the turbine, 2) compressing the negative pressure turbine by applying compression material to both sides of the negative pressure material to increase the rotation energy 3) compressing material is applied to one side of the compression negative pressure turbine, negative pressure material is applied to both sides of the compression negative pressure turbine to increase the rotational energy to rotate the turbine, 4) compression material is applied to the half- By applying a negative pressure material to the half section to increase the rotational energy to rotate the turbine, the rotational force of the turbine Sending to the generator to generate electricity from the generator.

As mentioned above, the compression power generation apparatus is constituted by at least one of a compression reservoir, a compression turbine and a generator, and the negative pressure generation apparatus is constituted by at least one of a negative pressure reservoir, a negative pressure turbine and a generator, A negative pressure reservoir, a compression negative pressure turbine, and a generator. Here, the generators may be provided individually or may be provided as one unit. In this case, when the generators are provided for respective units, the rotary motion of the compressor turbine, the negative pressure turbine, and the compressed negative pressure turbine is transmitted directly to the generator through the respective rotary shafts to generate electricity, or through respective transmission devices connected to the respective rotary shafts And the rotational speed is accelerated to be sent to the generator to generate electricity. In this case, the rotary motion of the compression turbine, the negative pressure turbine, and the compression negative pressure turbine is integrated into one rotary shaft and then directly sent to the generator to generate electricity, or the rotary motion is combined with one rotary shaft, Is accelerated and sent to the generator to generate electricity.

12 is a schematic view showing the configuration of a rotating body, a diaphragm passage, a diaphragm venturi, a compression power generator, a negative pressure generator, etc. according to the present invention, and Fig. 13 is a schematic view showing the structure of a rotating body, diaphragm venturi, And Fig. 14 is a schematic diagram showing the details of the compression power generation device, the negative pressure power generation device, and the compression negative pressure power generation device according to the present invention. The compressive power generation device 40, the negative pressure power generation device 41, and the compression negative pressure power generation device 42 may be referred to.

The description of claim 11 is as follows. Claim 11 is a process according to any one of claims 3 to 8, wherein at least one of the generated electricity, compression material, and negative pressure material is supplied to the electricity supply device (50), the compressed material supply device (51) An object made up of at least one of liquid, vapor, and solid by at least one of an electric compressing material supplying device 52, an electric compressing material supplying device 53, an electric negative pressure material supplying device 54 and a compressed negative pressure material supplying device 55, (1) the electric supply device (50) is connected to the electric wire (200), and the electricity supply device (50) An electrode 201, and a heating wire 202. This is shown in FIG. 19, and the electric wire is a line for transmitting electricity from the place where electricity is generated to at least one of the electrode and the heating wire, Is an object or object composed of one or more of liquid, vapor and solid. And the electric wire is a conductor which is embedded or intruded into the ground and supplies electric power transmitted from the electric wire to the object or the ground. The electrode is two electrodes of an anode and a cathode in case of DC, and one electrode in case of AC, Heating or heating the object or the object by electric power supplied from the electric wire or embedded or intruded into the object or the object of the electric wire or the electrode, wherein the electric wire or the electrode is made of a conductive material or an object Such as iron, zinc, copper, metal, aluminum, graphite, carbon, tungsten, stainless steel and the like. Here, an electric wire is an electrically resistive conductor that generates heat when electricity is passed through, such as tungsten, nickel, carbon, and conductive filaments. In the case where the electric power supply device is constituted by electric wires and electrodes, a phenomenon such as electrolysis, electroosmosis, electrophoresis and electric movement is generated to aerate or mix objects, or objects, It can be applied to treatment by purification. In the case where the electric supply device is constituted by electric wires and heating wires, it is possible to generate heat to the heating wires to apply the object or the object to the heating or the like by deicing.

2) Compressed material supply device 51 includes hose 1 210, hose control valve 1 211, side line 1 212, side line control valve 1 213, disperser 215, disperser housing 216, , And a diffuser indicator 217, which is shown in FIG. 19, wherein the hose 1 210 is a tube or passageway that is configured to deliver the compressed material from where the compressed material is produced to the disperser, Wherein the inlet of the hose 1 is connected to the place where the compressed material is produced and the outlet is connected to at least one of the distributor, the object or the object, The hose 1 is connected to each of two or more compressed substances generated in more than two places, and the number of the hoses 1 is two or more And the number of two or more is the same The number of which is equal to or more than two, and the material is supplied to the dispersing device or supplied to the object or the target site, In the embodiment in which the compressed material is transferred or supplied to more than two places through the hose 1, the hose 1 is transferred or supplied from two or more positions to two or more positions by the same number, Or more, and is delivered or supplied to two or more places. The hose control valve 1 (211) is a valve for controlling the supply amount through the hose (1). When there are two or more hoses (1), the hose control valve (1) The side line 1 is used as a pipe or a passage for delivering a certain substance 1 to a dispersing device, a case where a certain substance 1 is directly supplied to an object or a target site The inlet of the side line 1 is a place where a certain substance 1 is introduced and the outlet is a position of the dispersing device, the object or the object, the hose 1, the hose 1, The introduction of a certain substance 1 into the inlet of the sideline 1 may be accomplished by providing a funnel or the like at the entrance of the sideline 1, 1 is introduced into the sidewall 1 or a reservoir storing a certain substance 1 is connected to the inlet of the sideline 1 to introduce a certain substance 1 into the sideline 1, And a certain substance 1 may be introduced into the side line 1 by applying pressure. Here, the pressure device for applying pressure is a pressure tank, a pressure pump, a blower, and the like.

Here, in the case where the number of the certain substances 1 is two or more, in the case where the number of the certain substances 1 is two or more, the side line 1 is provided for each of the two substances, and the number of the side lines 1 is two or more, Two or more of the same number may be delivered to the dispersing device or supplied to the object or target site or connected to the hose 1, Here, in the case where a certain substance 1 is transferred, supplied or connected to two or more places via the side line 1, Line 1 may be conveyed, supplied, or connected to two or more of the same number from two or more, or may be branched or branched into two or more, and may be delivered, or connected, or connected to two or more.

The constant material 1 injected into the hose 1 through the side line 1 is mixed with the compressed material in the hose 1 and is delivered or supplied as the compressed material. The ratio of the compressed material 1 mixed with the certain material 1 is transmitted Or each of the compressed material and the given material 1 to be supplied is 0 to 100% by weight or 100% by volume, and the whole is 100%, wherein each of the compressed material to be delivered or supplied and the certain material 1 has a weight 100% of the compression material and 0% of the constant material are used, and when the certain material 1 is not used, the total amount is 100%, and the constant material 1 is 20% When used as a volume ratio, 80% of the compressed material and 20% of the constant material make up 100% of the whole, and when the constant material 1 is used at 40% by weight, the compressed material is 60% % The same room as It is when combined. Here, in the case where the number of the certain substances 1 is two or more, in the case where the number of the certain substances 1 is two or more, two or more side lines 1 are provided for each of two or more, and two or more side lines 1 are the same 2 or more in number, or more than 2 points of the object or destination, or more than 2 points in the hose 1, or 2 or more of the side lines 1 are combined into one, Or connected to one point of the supply or hose 1 at one point of the destination.

The side line control valve 1 (213) is a valve for regulating the amount of input through the side line 1. When there are two or more side lines 1, the side line control valve 1 is provided for each side line 1, 1 214 is a mixture of 5 to 99 parts by weight of bubbles, oxygen, ozone, carbon gas, carbon dioxide gas, carbonated water, pressure water, high pressure water, pressure air, high pressure air, loess, slag, , Charcoal, charcoal, zeolite, surfactant, salt, sodium hydroxide (NaOH), microorganism, moisture, water, steam, mist, smoke, fog, fog or smog, Or two or more sideways 1, respectively, or two or more substances may be premixed and delivered or supplied via one sideline 1, and the microorganisms may be divided into general microorganisms, useful microorganisms , The general microorganism is a microorganism other than the useful microorganism, and the useful microorganism is at least one of lactic acid bacteria, radiation bacteria, photosynthetic bacteria, yeast bacteria, and mycelia, wherein the bubbles are swollen like bubbles, Carbon dioxide gas, carbonated water is water in which carbon dioxide is dissolved, pressure water is water having a pressure of 10 to 1000 kg / cm ² , and high-pressure water is 100 to 10,000 kg / cm ² and water with a ^second high-pressure, the pressure air is air having a pressure of 10~1000kg / cm ^2, high-pressure air is air with a high pressure of 100~10000kg / cm ^2. Next, among surfactants 1, surfactants are adsorbed on the interface in the solution to reduce the surface tension thereof. Anionic surfactants, which are ionized in an aqueous solution of the surfactant to become active anions, are called anionic surfactants. Benzenesulfonic acid salts and the like, and those which are ionized to become cations are cationic surfactants, which include higher amine halides, quaternary ammonium salts, alkylpyridinium salts and the like, and both of them are amphoteric The surfactant generally includes detergent, emulsifying power, dispersing power, osmotic force, foaming power and the like. When supplied to the object or target area, the target or the target area itself or the target or target area One or more of the constituent liquid, vapor, and solid phases may be washed, emulsified, By adding a bubble, etc., thereby promoting a wide range of processing efficiency.

Next, salt and sodium hydroxide (NaOH) among certain substances 1 are used when electric power is supplied to the object or subject to be electrically sterilized. In an embodiment of the present invention, firstly, chlorine sterilization using electricity is carried out in the case where salt exists in the object or the target site, the salt present or contained in the object or the object is decomposed into the chlorine component and the sodium component by the supplied electricity, ₂ ) is generated and the contaminant present or contained in the object or the object is sterilized by chlorine and removed. In case of secondary sodium hypochlorite disinfection using electricity, sodium hydroxide (NaOH), which is one of the certain substances 1, is supplied through the side line 1, the chlorine component generated and the sodium hydroxide react with each other to generate hypochlorous acid (ClO) Or the contaminant present or contained in the site is sterilized and removed with hypochlorous acid. Here, a reaction formula in which a chlorine component and sodium hydroxide are reacted to produce sodium hypochlorite (NaClO), which is superior to a chlorine component, is as follows. Here, NaOH is decomposed into Na ⁺ and OH ^- by supplied electricity. Cl ₂ + 2 NaOH → NaCl + NaClO + H ₂ O. Next, in certain substances 1, water vapor is gaseous water, mist is cloudy mist, smoke is cloudy gas, It is a condensed, small droplet, fog is cloudy mist, and smog is a mixture of smoke and mist.

The compressed material is supplied to an object or a destination from at least one of an outlet of the hose 1 and a distributor connected to the outlet of the hose 1 and the constant substance 1 is supplied to the outlet of the side line 1, When the fixed substance 1 is supplied from the disperser connected to the outlet of the side line 1 and the outlet of the side line 1, the predetermined substance 1 is supplied from the dispersing device connected to the outlet of the hose 1, 1 is supplied from the disperser connected to the outlet of the hose 1 and the outlet of the hose 1, the compressed material in the hose 1 is mixed and supplied to the outlet of the hose 1, the side line 1 The outlet is a hollow or hollow opening centered on the tip of the tube or passage where at least one of the compressed material, the constant material 1, is connected to the hose 1, directly from the side line 1, When at least one of the compressed material and the fixed material 1 is supplied to the object or the target consisting of one or more of the upper and lower solid phases, one or more of the compressed material and the constant material 1 is supplied from the outlet of the hose 1 and the outlet of the side line 1 will be.

The dispersing device 215 is connected to at least one of the outlet of the hose 1 and the outlet of the side line 1 so that one or more of the compressed substances 1 provided from at least one of the hose 1 and the side line 1 is discharged into a liquid phase, , And is one of a porous plate, an acid substrate, a diffuser, a blowing pipe, a nozzle, a sprinkler, and a porous pipe, and the porous plate is a plate having one or more pores Wherein the acid substrate is a plate made of a porous material, wherein the porous material corresponds to a ceramic or the like, the diffuser is a porous material tube, the blowing tube is a tube or a pipe, The sprinkler pipe is a pipe having a predetermined length in which at least one orifice hole is formed on the outer periphery of the sprinkler pipe, 1, the tip or all or a part of the perforated pipe is embedded in at least one of liquid, vapor, and solid in the object or target, or a point, a line, a line, a parallel line, a parallel line, a grid, Fig. 21 is a schematic view showing an example of the installation of the dispersing machine according to the present invention, in which the hose 1, the side line 1, and the perforated pipe are formed in the form of parallel lines and parallel lines And the disperser housing 216 covers, encases or encapsulates at least one of the outlet of the hose 1, the outlet of the side line 1, the baffle plate, the acid substrate, the diffuser, the blower, the nozzle or the sprinkler Wherein the housing of the distributor comprises an outlet of the hose 1, an outlet of the side line 1, a blowing plate, an acid substrate, a diffuser, a blower, a nozzle, a sprinkler Back And it is installed to prevent substances or the like from clogging due to accumulation or deposition. The disperser indicator 217 is a float or float that indicates the position of at least one of the outlet of the hose 1, the outlet of the side line 1, the disperser, and the housing of the disperser to be recognizable on the surface of the object or object, Which is connected by a line to at least one of the outlet of the hose 1, the outlet of the side line 1, the dispersing device,

3) The negative pressure material supply device 52 is composed of at least one of the hose 2 220, the hose control valve 2 221, the side line 2 222, the side line control valve 2 223 and the suction pipe 225 The hose 2 (220) is a tube or a passage, which is used to transfer a negative pressure material from a place where a negative pressure material is generated to a suction pipe, or to supply a negative pressure material directly from a place where a negative pressure material is generated, Wherein the inlet of the hose 2 is connected to the place where the negative pressure material is produced and the outlet is connected to one of at least one of the suction pipe, the object or the object, The hose 2 has the same function as the suction pipe. The hose control valve 2 (221) is a valve for controlling the supply amount through the hose 2. When the hoses 2 are two or more, the hose control valve 2 is installed for the hose 2, The side line 2 is used as a pipe or a passage for delivering a certain substance 2 to a suction pipe, a case where a certain substance 2 is directly supplied to an object or a target site , And connecting the hose (2) to the hose (2), the inlet of the side line (2) is where the constant material (2) flows and the outlet is the suction pipe, the object or the object, In order to introduce a certain substance 2 into the inlet of the side line 2, a funnel or the like is installed at the entrance of the side line 2, The substance 2 is introduced into the side line 2 or a reservoir storing a certain substance 2 is connected to the inlet of the side line 2 to introduce a certain substance 2 into the side line 2 or a constant substance 2 with a negative pressure device is stored at the inlet of the side line 2 It is possible to connect the reservoir and add a certain substance 2 to the side line 2 by applying a negative pressure. Here, the negative pressure device includes a negative pressure tank, a vacuum tank, a negative pressure pump, a vacuum pump, and a vacuum air. The constant material 2 injected into the hose 2 through the side line 2 is mixed with the negative pressure material in the hose 2 and is delivered or supplied as a negative pressure material. The ratio of the negative pressure material to the constant material 2, Or each of the supplied negative pressure material and the predetermined material 2 is 0 to 100% by weight or 100% by volume, the side line regulating valve 2 (223) is a valve for regulating the input amount through the side line 2, Side line control valve 2 is provided for each of the side lines 2 when the side lines 2 are two or more, and the constant material 2 224 is at least one of vacuum, vacuum fluid, vacuum water, vacuum air, , Wherein when a certain substance 2 is composed of two or more substances, two or more side lines 2 are respectively delivered or supplied via each of them, or two or more substances are premixed to form one side line 2 W is passed or supplied, wherein the vacuum is a low pressure of 0~1 / 1000㎜Hg or 0~10 ^-3 ㎜Hg, vacuum fluid is a fluid of the vacuum, the vacuum is a number of water vacuum, vacuum air of the vacuum air And the vacuum pressure is a pressure having a vacuum state.

One end of the suction pipe 225 is connected to the hose 2 to supply a negative pressure material from the hose 2 and the other end is embedded or introduced into an object or a target object composed of at least one of liquid, When at least one of the negative pressure material and the constant material 2 is supplied to one end of the suction pipe, at least one of the liquid phase, the vapor phase, and the solid phase constituting the object or the object is lifted into the suction pipe by a negative pressure of at least one of the negative pressure substance and the constant substance 2 Subsequently, the negative pressure of one or more of the negative pressure material and the constant material 2 is released to drop the negative pressure, and the supply and release of one or more of the negative pressure material and the constant material 2 are repeated to obtain one of the liquid phase, Or at least one of liquid, vapor, and solid constituting the object or the object A case in which at least one of foreign substances, suspended matters and contaminants is raised or lifted into the suction pipe by a negative pressure of at least one of a negative pressure substance and a certain substance 2, The hose 2 is replaced by a suction pipe. Hereinafter, the negative pressure material and the constant material 2 are vacuum, vacuum air, vacuum water, vacuum pressure, etc. 19 and 20, when a negative pressure material or a certain substance 2 is supplied to one end of a suction pipe, at least one of a liquid phase, a gas phase, and a solid phase constituting an object or a target is a negative pressure substance, When the negative pressure of the negative pressure material or the constant substance 2 is released, the lowered pressure is dropped by the negative pressure. At this time, By impact, etc. is applied to the object or destination. Therefore, by repeatedly supplying and releasing the negative pressure of the negative pressure material and the certain substance 2 in the suction pipe, one or more of the liquid phase, the vapor phase, and the solid phase constituting the object or the object repeatedly ascends and falls within the suction pipe, At least one of the constituent liquid, vapor, and solid phases is treated by circulation, alternating current, convection, aeration, abandonment, exhalation, purification and the like.

4) The electrically compressed material supply device 53 includes at least one of electric wire and electrode, which is an electric supply device, 2) a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, , A distributor housing, and a disperser indicator, and the electric power is supplied to a certain point or a certain place of the object or the target place by 1) electric supply device and 2) Material supply,

5) The electrical negative pressure material supply device 54 includes at least one of electric wire and electrode which is an electric supply device, 3) a hose 2 as a negative pressure material supply device, a hose control valve 2, a side line 2, a side line control valve 2, A pipe or a certain portion of the object or subject, 1) supplying electric power by an electricity supply device and 3) supplying a negative pressure material by a negative pressure material supply device to another certain point or a certain portion ,

6) The compressed negative pressure material supply device 55 comprises at least one of 2) a compressed material supply device, a hose 1, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing, It is composed of at least one of material supply device, hose 2, hose control valve 2, side line 2, side line control valve 2 and suction pipe. 3) supplying the negative pressure material by the negative pressure material supply device,

The pressure and pressure of the compression material and the negative pressure material are divided into low pressure, medium pressure, high pressure, no pressure, oil pressure, gravity pressure, atmospheric pressure and other pressures. The pressure is divided into low pressure, medium pressure, high pressure, no pressure, hydraulic pressure, gravity pressure, atmospheric pressure and other pressures, and the constant substance 1 and the constant substance 2 are either transmitted through the side line 1, pressure is divided into a low-pressure, medium pressure, high pressure, muap, hydraulic, gravitational pressure, atmospheric pressure and other pressure, the low pressure is ^{1 × 10 -100 ~10kg / cm 2} , -1 × 10 -100 ~10kg / cm 2, wherein one of 101~759Torr, the intermediate pressure is 11~100kg / cm ^2, and one of ^{-11~-100kg / cm 2, 11~100Torr} , the high pressure is ^{101~1 × 10 100 kg / cm 2} , -101~ ^{-1 × 10 100 kg / cm 2} , 1 × 10 -100 ~10Torr, muap the pressure of 0kg / cm ^2, the hydraulic pressure is large, the gravity pressure than the pressure of gravity 0kg / cm ^2, the atmospheric pressure is the pressure of the atmosphere, Other pressure Wherein the size of the constant material 1 and the constant material 2 is in the range of 1 * 10 ^{-1 to} 1 * 10 ^-2 m, and the size is in the range of 0.9 * 10 ^{-2 to} 1 * 10 ^-3 m centimeter size, 0.9 * 10 ^{-3 to} 1 * 10 ^-6 m millimeter micrometer size, 0.9 * 10 ^{-6 to} 1 * 10 ^-9 m micro- A size of 0.9 * 10 ^{-9 to} 1 * 10 ^-12 m and a pico-femtometer size of 0.9 * 10 ^{-12 to} 1 * 10 ^-15 m, , flue, nozzles, sprinklers, perforated pipe size of the material to be supplied or ejected or injected through one of the 10 ^-1 to 1 × 10 ^-2 * 1 m meter cm size, 0.9 * ^10-2 to 1 * 10 cm ^-3 m millimeter size, 0.9 * 10 ^-3 - 10 ^-6 m ~1 mm micrometer size, 0.9 * 10 ^-6 * 10 ^-9 m ~1 micro-nanometer size of 0.9 * ^10-9 ~1 × 10 ^-12 m nano picometers size, 0.9 * 10 ^-12 meters of the one of the pico femto ~1 × 10 ^-15 m of the The material to be introduced into one of the blowing plate, the acid substrate, the diffusing tube, the blowing tube, the nozzle, the sprinkler, and the pipe is a plate, an acid substrate, a diffuser, a nozzle, Supply to the object or target land according to the size of the initial inflow by the supply hole, spray hole, injection hole, etc. of each of the perforated plate, the acid substrate, the acid furnace, the transfer engine, the nozzle, the sprinkler, Or may be reformed into materials of various sizes as described above and supplied to the object or target. The smaller the size of the material supplied here, the greater the effects of aeration, abandonment, exhalation, and purification. Each of the constituent elements constituting at least one of the at least one of them is characterized by being 0-100% by weight or 100% by volume.

In this embodiment, each component constituting at least one component is 0 to 100% by weight or 100% by volume, and therefore, when two components are used, one component is 80% One component in a volume ratio of 40% + one component in another 30% + another component in a volume ratio of 30%, and the total is 100% %. ≪ / RTI > The description of the claims is based on a diagram showing the supply of electricity, compressed material and negative pressure material produced by the present invention of Fig. 19, electricity generated by the invention of Fig. 20, compressed material, A schematic diagram showing the circulation process of the target site, a schematic diagram showing an example of the installation of the disperser according to the present invention in Fig. 21, and the like.

Here, the size of a certain substance 1, the size of a certain substance 2, or the size of a substance supplied, ejected or injected through a perforated plate, an acid substrate, a diffuser, a transfer tube, a nozzle, a sprinkler, Microscale sizes, such as nanometer size, nanopicometer size, pico-femtometer size, etc., can be achieved by: 1) providing, injecting, or injecting a material into a ceramic, cocos, filter, fiber, carbon, screw, mesh, sieve, , Pores such as porous polymer films, porous membranes, porous polymer membranes, perforated plates, nozzles, or microgaps; 2) rotating, colliding, grinding, milling, grinding, grinding And 3) processing the supplied or ejected or injected material by cavitation, pressure melting, turbulent shearing, high-speed rotation stirring, swirling flow, etc. 4) 5) It is mixed with another constant material in the middle of spraying and sending a certain material at high pressure or high speed, and they are mixed with each other, so that a certain material is fine . In the embodiment of 5), air is mixed in the middle of spraying the liquid material at a high pressure or high speed to obtain air bubbles in which the liquid material becomes fine by mixing them, and in another embodiment 5) A pump for circulating the liquid phase to a predetermined pressure or higher; a pump driving motor for driving the pump; an air supply mechanism for supplying compressed air or for self-ventilation; an air supply mechanism that pressurizes the liquid phase, And mixing the air bubbles with each other to produce micro-bubbles and ultra-fine bubbles which are very small bubbles. This fine size enhances the effects of aeration and purification by generating or generating ultrasound, high sound pressure, high heat, desorption, impact, dissolution, pressurization, charging, mechanization, energy, emulsion, .

The description of claim 12 is as follows. [12] The method according to any one of claims 1 to 8, wherein the supply of the object or the object itself, or at least one of liquid, vapor, and solid constituting the object or the object, A method for treating at least one of contaminated contaminants with at least one of aeration, mixing, circulation, convection, deicing, injection, extraction, extraction, aerobic, anaerobic, cleaning, floatation, heating, decomposition, flocculation, sedimentation, The aerator is divided into an electric aerator, a compression aerator, a negative pressure aerator, a rotary bomber, a falling aerator, and a suspended air aerator. The electric aerator is supplied to an electrode 201 of a positive electrode and a negative electrode, When moisture or water (H ₂ O) of the liquid constituting the electrolysis anode and the cathode is an oxygen gas (O ₂₎ and hydrogen gas (H ₂₎ is generated in the portion of the oxygen gas and the hydrogen gas bubbles liquid 19, wherein the compression augmentation is carried out in such a manner that at least one of the compression material, the constant material 1, is in contact with the object or target object, or the target object itself, or a liquid, And at least one of the compressed material and the predetermined material 1 is ejected or injected to aerate at least one of the liquid, vapor, and solid constituting the object or the object itself or the object or the object, wherein the compressed air is liquid, Compressed substances such as compressed air or one or more substances 1 are sprayed or ejected on an object or a place composed of at least one of the solid phases, so that one or more of the liquid, vapor, and solid phases constituting the object or the object are mixed with each other, . When at least one of the negative pressure material and the constant material 2 is supplied to one end of the suction pipe, the negative pressure aerator sucks the suction pipe by one or more negative pressure of at least one of the liquid material, gas phase, And the negative pressure of at least one of the negative pressure material and the constant material 2 is released to drop the negative pressure material, and the supply and release of one or more of the negative pressure material and the constant material 2 are repeated to form a liquid, And repeatedly ascending and descending one or more of the solid phases to aeration, wherein aeration and fall are repetitively carried out by a negative pressure aeration to produce a negative pressure, and a certain substance 2 to a vacuum, vacuum air, vacuum water, When a negative pressure material or a certain substance 2 is supplied to one end of a bar and a suction pipe, liquid, vapor, and solid phase The negative pressure of the negative material 2 and the negative material of the constant material 2 causes the negative pressure of the negative material 2 and the negative material of the negative material 2 to rise. And so on. Therefore, by repeatedly supplying and releasing the negative pressure of the negative pressure material and the constant substance 2 in the suction pipe, at least one of the liquid phase, the gas phase and the solid phase constituting the object or the object repeatedly ascends and falls within the suction pipe, , Or one or more of the liquid, vapor, and solid phases constituting the object or the object are aerated. Here, the compressed aeration and the negative pressure augmentation are performed by compressing the compressed material, the constant material 1, the negative pressure material, and the constant material 2 supplied to the object or the target area randomly through a separate hose, Or the entire section of the object or the target area is divided into two sections, that is, a compressed material, a certain substance 1, a negative substance and a certain substance 2, separately, or the entire section of the object or the object A compressed substance, a constant substance 1, a negative pressure substance, and a constant substance 2 are separately supplied to each of the compartments.

The rotatable brakes may be vertically, horizontally, or inclinedly disposed on the surface or inside of the object or target using rotating force of the rotating body rotated by at least one of fluid, wind, water, wind force, hydraulic force, The paddle wheel, the aberrator, and the rotating body are rotated to rotate, stir, or flip the contents of the object or the object, and in this case, the surface of the object or the object A rotational force of the rotating body according to the present invention is transmitted to at least one of a stirring blade, a wheel, a paddle wheel, and aberration to rotate at least one of a stirring blade, a wheel, a paddle wheel, Here, the transmission of the rotational force of the rotating body according to the present invention is controlled by the central axis of the rotating body, the stirring wing, the wheel, the paddle wheel, To ensure the interconnection with the rotor torque is a stirring blade, a wheel, to ensure that the paddle wheel, the aberration, transmitted to the rotating body by the aeration stirring blade, wheels, paddle wheels, the aberration, the rotating body is rotated is preferred. The falling aeration is performed by raising the contents between the double pipes of the double pipe pipe embedded in the object or the object using one or more of the compression material, the negative pressure material and the water pump after the double pipe pipe is embedded in the object or the object, The dropping aeration can be referred to the schematic view showing the falling aeration according to the present invention of Fig. 25, wherein an embodiment of raising the contents, for example a compressed material, The outlet of the hose is positioned at the bottom of the double pipe of the double pipe, and the compressed material is supplied at the bottom to increase the content by pressing the compressed material from the bottom to the top, and the negative pressure material is located at the top of the double pipe of the double pipe And the negative pressure material is supplied from the upper part to the negative pressure material, In the case where the negative pressure material is supplied, a structure for sealing, opening, opening and closing the negative pressure material is required when necessary, and the water pump is pumped up from the bottom or top of the double pipe of the double pipe to the water pump. The suspended aerobic unit is configured to aerate and float at least one of the above-mentioned aerobic unit, compressed aerobic unit, negative aerobic unit, rotary aerobic unit, and falling aerobic unit in a floating body of at least one of vegetation, Wherein the fluid is a float attached or attached to the plant and the floating fluid is a floating fluid not attached or attached to the plant, and when the plant is attached or attached, plant purification and vegetation purification by the plant are added, The fluid is a float which can move itself by attaching or mounting a rotating propeller, a jet, a sail, a wind plate, etc., and the non-moving part fluid is not self-moving because the rotating propeller, jet, sail, And when the aeration of at least one of the above-mentioned electric aeration, compression aeration, negative pressure aeration, rotary braking device and drop aeration is installed in the float, Equipment, equipment, etc. that are capable of aeration of at least one of a vacuum, a negative pressure aerator, a rotary bomber, and a drop aeration.

The mixing may be performed by supplying at least one of electricity, compressed material, a certain substance 1, a negative pressure substance, and a certain substance 2 to the object or a subject or by supplying at least one of an electric aeration, a compression aeration, a negative pressure aerator, Wherein at least one of a liquid, a gaseous phase, and a solid phase constituting the object or the target itself or the object or the target is mixed with each other, wherein at least one of the electricity, the compressed substance, the constant substance 1, the negative pressure substance, When supplied to a target site, one or more of liquid, vapor, and solid constituting the target or target site itself or the target or target site are mixed with each other by electric force, compressive force, negative pressure, , A falling aeration, and a floating aeration, or a liquid or a vapor phase constituting a target or a target site , One or more of the solid phases are mixed together. Here, mixing prevents the object or the object itself or at least one of liquid, vapor, and solid constituting the object or the object to be rotten or corrupted due to congestion.

The circulation (300) is a method of supplying at least one of electricity, a compressed material, a certain substance 1, a negative pressure substance, and a certain substance 2 to an object or a subject, or by supplying an electric aeration, a compression aeration, a negative pressure aerator, , At least one of a liquid phase, a gas phase, and a solid phase constituting the object or the target object is circulated by performing at least one of the electricity, the compressed material, the schedule When one or more of the substance 1, the negative pressure substance, and the certain substance 2 are supplied at a certain point or in a predetermined direction, at least one of liquid, vapor, and solid constituting the object or the target And at least one of an electric aeration, a compression aeration, a negative pressure aerator, a rotary bomber, a drop aeration, and a floating aerator is circulated in a predetermined direction or in a predetermined direction At least one of an electric aeration, a compression aeration, a negative pressure aerator, a rotary bomber, a falling aerator and a suspended aerator acts in a certain direction, and at least one of liquid, vapor and solid phases constituting the object or the object is circulated in a certain direction . Here, the circulation prevents the object or the object itself, or at least one of the liquid, vapor, and solid constituting the object or the object, from being decayed or corrupted due to congestion. For circulation here, the supply of electricity, compressed material, constant material 1, negative pressure material, constant material 2 and electric aeration, compressed aeration, negative pressure aerator, rotary bomber, drop aeration, Or in a certain direction, at least one of a liquid phase, a vapor phase, and a solid phase constituting the object or the object is circulated in a certain direction around a certain point or a certain direction. Here, FIG. 20 is a schematic diagram showing a circulation process of an object or a target object by supplying electricity, a compressed material, and a negative pressure material generated by the present invention.

The convection may be divided into electric convection and compression convection, and the electric convection may be formed by embedding or laying an electric heating line 202 on the floor or the bottom of the object or the object including at least one of liquid, vapor and solid, One or more of the heated liquid phase, vapor phase, and solid phase on the bottom or bottom is lightly lifted up, and at least one of the relatively cool liquid phase, vapor phase, and solid phase in the upper part is downward, A high temperature extruded material through at least one of hose 1, sideline 1, and dispersing machine, which is one of buried, intruded, or laid at the bottom or bottom of the object or object, , Which causes at least one of the liquid, vapor, and solid in the bottom or bottom to become lighter and rise up, At least one of the cold liquid, vapor, and solid phases is downward, where the principle of convection is lighter when the temperature of the liquid and the gas rises and goes up, and the cool material falls down and is mixed with each other. Or one or more of the liquid, vapor, and solid phase in the target area is prevented from being decayed or decayed due to congestion. Here, the compression convection is preferably applied to the summer season in which the temperature of the compressed material is increased due to the high temperature of the ground.

The electric ice making is divided into electric ice making, compression ice making and negative pressure ice making. The electric ice making is carried out by embedding or installing the electric heating wire 202 on the object or the object including at least one of liquid, One or more of the liquid phase, gas phase and solid phase is heated so that at least one of liquid phase, gas phase and solid phase does not freeze in the winter season or at a temperature of 0 ° C or lower, or melts at least one of the liquid phase, The compressed ice may be at least one of a hose 1, a side line 1, and a dispersing unit embedded in or laid on an object or a target comprising at least one of a liquid, a vapor, and a solid phase, By circulating one or more of the vapor phase and the solid phase, at least one of the liquid phase, the vapor phase, and the solid phase does not freeze even in the winter season or at temperatures below 0 ° C When at least one of the negative pressure material and the predetermined material 2 is supplied to one end of the suction pipe, at least one of the liquid phase, the vapor phase, and the solid phase constituting the object or the object is a negative pressure, The suction pipe is lifted into the suction pipe and then the negative pressure of at least one of the negative pressure material and the constant material 2 is released to drop the negative pressure material and the supply and release of at least one of the negative pressure material and the constant material 2 is repeated, , Gaseous phase and solid phase so that at least one of liquid phase, gas phase and solid phase is not frozen even in the winter season or below 0 ° C,

The injection is divided into an electric injection and a compression injection. The electric injection injects an electrode 201 of a positive electrode and a negative electrode into an object or object made up of at least one of liquid, vapor and solid, The electrolysis phenomenon, the electroosmosis phenomenon, the electrophoresis phenomenon, the electroosmosis phenomenon phenomenon, and the electrophoresis phenomenon, and the application of the electrolysis phenomenon may be carried out by using an object having at least one of a liquid phase, a gas phase, An electrolytic phenomenon is generated by embedding electrodes of positive and negative electrodes in a target site and injecting electricity into the target or target through an electrode to electrolytically remove one or more of liquid, leachate and contaminant present in or contained in the target or target site And one application of the electroosmotic phenomenon is an object composed of at least one of liquid, vapor, and solid phase The anode and cathode electrodes are embedded in the target site, and electricity is injected into the target or object through the electrode to generate an electroosmosis phenomenon, so that at least one of the liquid, leachate, and contaminant present or contained in the target or target is moved in the negative direction And one application of the electric transfer phenomenon is to embed the electrodes of the positive and negative electrodes in an object or a ground comprising at least one of a liquid phase, a gas phase and a solid phase, inject electricity into the object or target through the electrode, And the bipolar contaminant existing or contained in the object or the target is moved in the direction of the cathode and is discharged to the outside from the cathode. One application of the electroosmotic transfer phenomenon is an application of a liquid, a vapor, Alternatively, electrodes of positive and negative electrodes may be embedded in the target area, Electricity is injected into an object or a target site to generate electroosmosis phenomenon and electromigration phenomenon to move at least one of liquid phase, leachate, general contaminant, and bipolar contaminant present in or contained in the object or object to the cathode direction In the application of the electroosmotic transfer phenomenon, when it is desired to wash or purify the anode and the cathode with one or more of water, a microorganism, and a surfactant, at least one of water, a microorganism and a surfactant Microbes, and surfactants injected by electroosmosis are transferred from the anode to the cathode through at least one of water, microorganism, and surfactant, And one application of the electrophoresis phenomenon is liquid, vapor, solid phase An anode and a cathode electrode are embedded in an object or a ground comprising one or more electrodes, and electrons are injected into the object or the object through the electrode to generate an electrophoresis phenomenon to move the cathode-anode to the anode or move the anode- Particle sorting or particle sorting,

In supplying the electricity, the electrodes of the positive electrode and the negative electrode may be embedded or intruded into the object or the target sheet itself, or may be embedded or penetrated into the object or the target sheet, and the electric wire may be embedded therein It is embedded or intruded into the object or target area. In electrolysis, electrolysis decomposes water (H ₂ O), which is present in or contained in a target or a target, or constituting a liquid phase, leachate, or contaminant into oxygen (O ₂ ) and hydrogen (H ₂ ) When iron electrodes are used as an anode, iron electrodes are decomposed to become iron ions (Fe ²⁺ ), which reacts with phosphorus (P), which is a contaminant in the object or the object, to form iron phosphate (FePO ₄ ) The contaminants are converted to other compounds and removed. Therefore, by applying one of electrolysis phenomenon, electrodes of positive and negative electrodes are embedded in a target object or object comprising one or more of liquid, vapor, and solid phases, and electricity is injected into the target object or object through the electrode, Leachate, or contaminant present in or contained in the electrolytic solution.

Electro-osmosis is a phenomenon in which a liquid moves from an anode to a cathode by electricity. Electro migration is a phenomenon in which a bipolar substance or a bipolar substance moves to the cathode due to polar nature. The reason why the liquid, bipolar, and bipolar contaminants are moved from the anode to the cathode in the electroosmosis phenomenon and the electrophoresis phenomenon is that the liquid movement due to the electroosmosis phenomenon occurs in the direction from the anode to the cathode, The heavy metal has a polarity and migrates to the negative electrode due to the electro-migration phenomenon. Therefore, the negative electrode is moved in one direction of the negative electrode Because it is most effective in terms of efficiency and economy. Here, the liquid phase, the contaminants, heavy metals, and the like, which have been moved in the direction of the cathode, may be pumped to the outside by using a pipe, a water pump or a pump installed in the cathode. Therefore, the electric injection is applied to the dehydration and purification of an object, which consists of at least one of liquid, vapor, and solid, or a liquid, contaminant, etc. existing in the target site. Here, the electroosmosis phenomenon is applicable to the case where the object or the object ground is a liquid foundation and the solid ground is a soft ground, and water content is high due to high water content. Electrolysis phenomenon, electroosmosis phenomenon, electro-migration phenomenon and electro-osmosis phenomenon phenomenon can be applied to the removal of contaminants when the object or target site is contaminated, such as contaminated soil, selective soil, selected soil, contaminated site, . The selected soils are selected from waste excavated from waste landfills, excavated wastes from land, wastes from waste landfill, contaminated soil excavated from contaminated sites, contaminated soil excavated from the ground, , Waste soil excavated from industrial complexes, wastes such as polluted soil excavated at a gas station, and contaminated soil selected by combustibles, organic matter, incombustibles, aggregates, and soil, etc., the selected soil itself or a mixture of soil and aggregate do.

The electrophoresis is applied to the case where the negative sludge particles mixed with the slurry having a high water content move to the anode due to the nature of the polarity and move the sludge in the slurry to one place, It is possible.

Herein, microorganisms are classified into general microorganisms and useful microorganisms, and general microorganisms are microorganisms other than useful microorganisms, and useful microorganisms are at least one of lactic acid bacteria, radiation bacteria, photosynthetic bacteria, yeast bacteria, A surfactant is a substance that adsorbs to the interface in a solution and reduces the surface tension thereof. Anionic surfactants, which are ionized in an aqueous solution of a surfactant to become an anion, are called anionic surfactants. Examples of the anionic surfactant include soap, alkylbenzenesulfonate Among them, cationic surfactants which are ionized to become cations are cationic surfactants, which include high-grade amine halides, quaternary ammonium salts, alkylpyridinium salts and the like, and both of them are referred to as amphoteric surfactants And surfactants generally have cleaning, emulsifying, dispersing, osmotic, and foaming powers, and they can be washed, emulsified and dispersed in one or more of liquid, vapor and solid phases constituting between the anode and cathode. , Osmosis, air bubbles, etc. to enhance various treatment efficiencies.

The compression injection may be performed by embedding or introducing at least one of a dispersing device, a pipe tube, and a non-pipe tube into an object or a target composed of at least one of liquid, vapor and solid phases and injecting at least one of the hose 1, side line 1 And one or more of the compressed material 1 provided by at least one of the hose 1 and the side line 1 is injected into an object or a target through at least one of a disperser, a pipe tube, and a hollow tube, , One or more of the hoses 1 and sideways 1 connected to the conduit or the non-tubular conduit through the conduit or the non-tubular conduit through compressed air or a constant One or more of bubbles, oxygen, moisture, water, water vapor, mist, smoke, mist, fog, smog Another application of the compression injection is to embed the dispersing device in a stream or a lake, which is an object or object made of water, and to disperse the dispersing device from at least one of the hose 1 and the side line 1 connected to the dispersing device The compressed air is compressed air, one kind of air bubbles, oxygen, pressure water, high pressure water, compressed air and pressure air are injected into the stream or lake to aerate or aerate the stream or lake.

The extraction may be performed by inserting or inserting at least one of a porous material, a gas phase, and a solid object into one or more objects or a target site, connecting at least one of the hose 2 and the side line 2 to at least one of the porous pipe and the non- 2, the side line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of the fluid tube and the void, One or more of a gas phase, a solid phase, a leachate, a polluted water, a pollutant, a gas, an odor, and an odor through one or more of a pipe tube and a non-pipe tube. Or from a hose 2 or a side line 2 connected to a pipe or a hollow pipe, It is possible to supply one or more of leachate, contaminated water, pollutant, gas, odor and smell of the object or target site composed of waste from a pipe or unoccupied pipe by supplying negative pressure air, Wherein the extraction is via one or more of the non-porous A hose 2, a side wall 2, a side wall 3, a side wall 3, a side wall 3, a side wall 3, a side wall 2, Line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of a pipe or a hollow pipe, and the liquid or vapor phase or solid phase present or contained in the object or object Extracts at least one of leachate, contaminated water, pollutant, gas, odor and odor, and re-injects at least one of the extracted extracts and one or more substances into another object or object through another of two or more porous pipes , It is possible to add pressure to the extract when the pressure is applied at the time of reloading and re-injection is desired, Is applied from at least one of a blower, a blower, a compressor, a pressure pump, and a high-pressure pump. One application of the extraction injection is to purchase or penetrate at least one of a pipe or a non- Connecting at least one of the hose 2 and the side line 2 to at least one of the hose 2 and the side line 2 and applying a negative pressure or vacuum of at least one of the materials 2 and 2 to at least one of the perforated pipe and the non- Or extracting at least one of the pollutants, leachate, gas, odor and odor present or contained in the object or the object made of the waste by supplying it to the target site, extracting the extracted extract and a certain substance bubbles, oxygen, moisture, , Mist, smoke, fog, fog, smog may be transferred to one or more of the objects Is to re-inject into the target area to make at least one of stabilization of waste, stabilization of odor, and stabilization of odor. Extraction injection recirculates the extracted extract to circulate the extraction and injection. This is because of early stabilization of waste landfill, , Odor stabilization and so on.

The air unit is divided into an electric unit and a compressed air unit. The electric unit is supplied to an electrode 201 of a positive electrode and a negative electrode embedded in an object or a target, and water or water in the liquid constituting the object or the object (H ₂ O ) Is electrolyzed to generate oxygen gas (O ₂ ) and hydrogen gas (H ₂ ) in the anode and the cathode, and at least one gas of oxygen or hydrogen is brought into contact with at least one of liquid, vapor and solid constituting the object or target Wherein the compressed air is compressed air or compressed air of at least one of the compressed materials through at least one of the hose 1 itself or a dispersing device connected to the hose 1, And oxygen or air is brought into contact with at least one of liquid, vapor and solid constituting the object or the object to make it aerobic,

The anaerobic tank may be supplied with a negative pressure or a vacuum in the negative pressure material through at least one of the hose 2 itself or a pipe connected to the hose 2 or the hollow pipe to an object or object made up of at least one of liquid, And the oxygen or air in the object or the object is reduced by anaerobic treatment by extracting the existing or contained gas phase,

The cleaning may be divided into a compression cleaning and a negative pressure cleaning. The compression cleaning may be performed by supplying compressed air among the compressed materials through the at least one of the hose 1 and the disperser to the object or the object made up of at least one of liquid, Dust, light water, or waste contained in or contained in the waste water, and the negative pressure cleaning may be performed on at least one of a hose 2 and a suction pipe Dust, lightweight water or waste contained in or contained in the object or the object is sucked through at least one of the hose 2 and the suction pipe to clean the vacuum,

The float is divided into an electric float, a compression float, and a negative float float. The electric float is supplied to electrodes of a cathode and a cathode embedded in the object or the object so that the water or water in the liquid constituting the object or object ₂ O) is electrolyzed to produce oxygen gas (O ₂ ) and hydrogen gas (H ₂ ) in the anode and the cathode, and the sediment, sediment, Wherein the compression buoy is provided to the object or object made up of at least one of a liquid phase, a vapor phase and a solid phase either through the hose 1 itself or via a disperser connected to the hose 1, , A pipe, and a non-porous pipe, the compressed air is supplied to the object or the object Is to float upwards one or more of the contained sediments, sediments, foreign matter, dust, light water and trash, where the sediment, sediment, foreign matter, dust, lightweight , It is preferable to supply compressed air from the bottom or the bottom of the garbage or the like so that they can easily float or float. The negative pressure levitation may be performed by supplying a vacuum in the negative pressure material through the hose 2 itself or a suction pipe connected to the hose 2 to an object or a target composed of one or more liquid, Or sediment, sediment, foreign matter, dust, light water, or waste contained in or deposited on the object or land in the case of negative pressure support, , It is preferable that a vacuum is supplied from the upper part of the garbage or the like so that they float easily or float. In this case, compression lifting and negative pressure lifting can be applied when sediment, sediment, foreign matter, dust, light water, garbage, etc. existing on the bottom of the object or target site are removed by lifting or floating in the fluid, air or water. Do. The float floated upwards may be removed by using a force, a net, a hedge, a hook, a forceps, a scum remover or the like.

The removal is divided into pollution removal, sediment removal, float removal, green tide removal, red tide removal, and green tide removal. The pollutant removal is classified into an electric sterilization removal, an aerobic decomposition removal and a negative pressure removal, , Hypochlorous acid sterilization, and ferrate sterilization. The chlorine sterilization is carried out by the presence of salinity on the object or the object, the salinity through the object or the object itself or the side line 1, (Cl ₂ ) is generated by decomposing chlorine and sodium contained in chlorine or sodium contained in the chlorine or chlorine contained in the chlorine-containing or chlorine- The sterilization is performed by supplying electric power to the object or the object, (NaOH), which is one of the substances 1, is added, and the chlorine component generated by the reaction is reacted with sodium hydroxide to generate hypochlorous acid (ClO), and the contaminant present or contained in the object or the object is sterilized with hypochlorous acid Here, the reaction formula in which sodium chloride is reacted with sodium chloride to produce sodium hypochlorite (NaClO), which is superior to the chlorine component, is as follows. Here, NaOH is decomposed into Na ⁺ and OH ^- by supplied electricity. Cl ₂ + NaOH → NaCl + NaClO + H ₂ O In the ferrate sterilization, when electricity is supplied to the anode and the cathode under the condition of using the iron electrode as the anode, the iron component (Fe) (OH) ₃₎ is generated and (to a reaction ClO) page rate (ferrate, (FeO ₄₎ hypochlorous acid generated in the iron hydroxide and ²⁾ is generated and the page or containing contaminant present in the object or destination rate If the anode and the cathode are supplied with electricity using the iron electrode as the anode, the iron component (Fe) is eluted from the iron electrode of the anode by the electrolysis principle or the like. Here, the reaction formula in which iron hydroxide and hypochlorous acid are reacted to produce a ferrate having better sterilizing power than hypochlorous acid is as follows. 2 Fe (OH) ₃ + 3 OCl ^- + 4 OH ^- ? 2 (FeO ₄ ) ^2- + 5 H ₂ O + 3 Cl ^-

Wherein the aerobic decomposition removal is carried out by aerating the supplied compressed material with air contained in at least one of the predetermined substances 1 to decompose and remove the organic contaminants existing or contained in the object or the object, When at least one of the negative pressure material and the fixed material 2 is supplied to one end of the suction pipe, at least one of the liquid phase, the vapor phase, and the solid phase constituting the object or the object becomes the negative pressure The material is removed from the suction pipe by the negative pressure of at least one of the material 2 and the suction pipe. In this case, the contaminants are directly removed or discharged to the outside. The direct removal is to remove the nets, the hooks, the hooks, To remove it directly. The sediment removal is performed by removing at least one of the compressed material 1 and the fixed material 1 from the bottom or the bottom of the object or target so that the sediment or sediment deposited on the bottom or bottom of the object or the target is floated, A suction pipe is provided at one end of the suction pipe, at least one of the negative pressure material and the constant material 2, and the sediment constituting the object or the object is lifted into the suction pipe by the negative pressure of at least one of the negative pressure material and the certain material 2, Removing at least one of a combustible material, a foreign matter, and a lightweight material by supplying at least one of the compressed material 1 and the target material to the object or the object, Or a suction pipe which is embedded or intruded into an object or an object, One or more of the liquid material, gaseous phase, and solid phase constituting the object or target is supplied to the suction pipe by the negative pressure of at least one of the negative pressure material and the predetermined material 2, A foreign matter, or a lightweight material is directly removed or discharged to the outside,

The above-mentioned algae removal, red tide removal, and rust trough removal can be performed by supplying at least one of electricity, compressed material, and certain substance 1 to a target or a target area and exposing the green tide, red tide, and green tide present therein to aerobic, aerobic, sterilization, Or at least one of a compressed material, an externally supplied washing water, a high pressure water, a pressure water and a nozzle water may be removed from the soil by using at least one of a loess material, a water body, a glue body, , A slag, 5 to 99 parts by weight of loess, 5 to 99 parts by weight of slag, a certain material composed of at least one of activated charcoal, charcoal, charcoal, zeolite and a surfactant to spray a certain substance on a subject or subject, It is to remove at least one of algae, red tide, and green tide that exists or contained in the site by adsorption, aggregation and sedimentation. In the removal of algae, red tide, Will be green algae, red tides, rust red tides exhalation, aeration or the like by the compressed air, a certain substance 1 of the air bubble, the oxygen of the compressed material. Sterilization is the sterilization of green, red tide, and green tide by electricity removal by electricity. Adsorption, coagulation and sedimentation are adsorbed by green tide, red tide, and green tide by using 5 to 99 weight parts of loess, slag, loess and 5 to 99 weight parts of slag, activated carbon, charcoal, zeolite, , Coagulated, precipitated and removed.

And at least one of a compressed material, an externally supplied washing water, a high pressure water, a pressure water and a nozzle water is mixed with a mixture of at least one of loess, slag and loess in a fixed body, an underwater body, a water body, And 5 to 99 parts by weight of slag, activated carbon, charcoal, zeolite, and a surfactant, and spraying a certain substance on the object or the target object, , Red tide, and green tide are removed by adsorption, coagulation, and precipitation, it is preferable to remove 5 to 99 parts by weight of loess, slag and loess, which are placed in one of a fixed body, an underwater body, a water body, Spraying or supplying at least one of compressed material, externally supplied washing water, high pressure water, pressure water and nozzle water to a certain material composed of at least one of activated charcoal, charcoal, zeolite and surfactant, and 5 to 99 parts by weight of slag A certain substance is sprayed on a target or a target site to remove the green tide, red tide, and green tide which are present or contained in the target or target site by adsorption, flocculation, sedimentation or the like. The number of wash water, high pressure water, pressure water, and nozzles provided from the outside are wash water, high pressure water, pressure water, and nozzle number provided by separate pressure tanks, pressure pumps, hydraulic tanks, The use of externally provided wash water, high pressure water, pressure water and nozzle water is further applied when the pressure of the compressed material is low or when the pressure of the compressed material is to be increased. Here, a certain substance loaded on one of a fixed body, an underwater body, a water body, a glue body, a float, and a moving body by using at least one of a compressed material, an external provided washing water, a high pressure water, And the green tide, the red tide, and the green tide present or contained in the object or the object are removed by adsorption, flocculation or sedimentation. Here, at least one of the compressed material, the externally provided wash water, the high pressure water, the pressure water and the nozzle water means at least one of the compressed material, the washing water, the high pressure water, the pressure water and the nozzle water. Here, the fixed body is fixed to one of the ground, the structure, and the facility, the underwater body is an object in water, the glide body is an object that glides in the air, And the moving object is a moving object such as a vehicle, ship, boat, or the like.

The heating is divided into electric heating, hot air heating, and hot water heating. The electric heating is carried out by heating the supplied electric power, so that the heating wire is embedded or penetrated into an object or object made up of at least one of liquid, The heating element is heated by the electric power supplied to heat the object or the object itself or at least one of the liquid phase, the vapor phase and the solid phase constituting the object or the object, At least one of a liquid phase, a gaseous phase and a solid phase constituting the object or the object itself or the object or the object is heated by compressed air having a relatively high temperature when the temperature of the object is relatively high, The temperature of the compressed water is relatively higher than the temperature of the object or the object If a higher temperature will be the object or the destination itself, or one or more of the liquid phase, gas phase, solid phase constituting the object or destination heated by the high compression can,

The electrolysis is divided into an electrolysis, an aerobic decomposition and an anaerobic decomposition. The electrolysis is carried out by inserting electrodes of an anode and a cathode into an object or an object made of at least one of liquid, vapor and solid, (H ₂ O) existing in or contained in the object or the object is dissolved in the oxygen gas (O ₂ ), or the liquid phase ₂ ) and hydrogen gas (H ₂ ), the decomposition of chlorine (Cl) and sodium (Na) present or contained in or contained in the object or object, (+), Heavy metal (+), and negative polarity (-) are moved to the negative polarity (-) and negative polarity, box The decomposition of the dissolved liquid phase (H ₂ O) into the oxygen gas (O ₂ ) and the hydrogen gas (H ₂ ) is for decomposing the liquid phase and dissipating it into oxygen gas and hydrogen gas to decompose the liquid phase to dehydrate. And the decomposition of salt into chlorine (Cl) and sodium (Na) is to decompose the salt to lower the salt concentration or to produce the chlorine disinfectant. (+), Negative (+), and negative (-) substances that are present or contained in the object or object are moved to the opposite polarities (-) and (+ (+), Heavy metal (+) and negative polarity (-) to the (-) and (+) poles and extract them from the (-) and (+) poles. Here, extraction from the (-) and (+) poles corresponds to the case where a hollow or porous pipe is embedded or penetrated into an object or a target and electrodes of positive and negative electrodes are embedded or intruded therein. (-) and (+) poles in the intrusive or pore Vacuum is extracted by vacuum, or pumping extraction is performed by inserting a water pump or a submersible pump into the hollow pipe or the pipe.

The aerobic disassembly can be carried out by supplying compressed air from the compressed material through the hose 1 itself or one or more of the disperser, the pipe tube, and the hollow tube connected to the hose 1 to an object or object made up of at least one of liquid, The anaerobic digestion is performed on the object or object made up of at least one of liquid, gaseous, and solid phases through the hose 2 itself or a pipe connected to the hose 2, A vacuum or a vacuum is supplied through the at least one of the vacuum chambers to extract oxygen or air present in the object or the object to be ana- lyzed to extract the organic matter present in the object or the object It is relatively slow to decompose rather than aerobic ,

The coagulation is classified into electrocoagulation and compression coagulation. In the electrocoagulation, an anode and an anode embedded in an object or a target are used as an iron electrode, and electricity is supplied to a cathode and an anode, from iron ions (Fe ^{2 +)} by being combined with iron the object or or containing contaminants present in the destination one would be flocculation of iron compounds, one application of the electro-coagulation is a cathode and an anode embedded in an object or destination The iron electrode is used as the iron electrode and the electricity is supplied to the cathode and the anode. The iron electrode is eluted by the electrolysis to become the iron ion (Fe ²⁺ ) and the iron ion is present or contained in the object or the object PO ₄ ^- ) and aggregated with iron phosphate (FePO ₄ ) to purify by removing phosphorus present or contained in the object or the object,

Wherein the precipitation is a precipitation or precipitation of the electrocoagulated or agglomerated agglomerated aggregate to the bottom or bottom of the object or subject and wherein the aeration is performed by aeration, mixing, circulation, convection, deicing, injection, extraction, Or purifying one or more of the liquid, vapor, and solid phases constituting the object or the object, or purifying the object or the target object itself by at least one of cleaning, floatation, removal, heating, Wherein each of the components constituting at least one of the at least one or more of the components is in a weight part or a volume part or a pressure part is 0 to 100% and the whole is 100%.

The description of claim 13 is as follows. According to a thirteenth aspect of the present invention, in the object or the object of the present invention, at least one of the liquid, gaseous, and solid phases is one of the following: 1) liquid, Wherein the liquid substance is a liquid substance, the gas substance is a gaseous substance, the solid substance is a solid substance substance, and the liquid substance substance is a mixture of a liquid substance and a gas phase And the liquid solid material is a mixture of a liquid phase and a solid phase, and the target substance is a mixture of a gas phase and a solid phase, and the liquid solid phase is a mixture of a liquid phase, a gaseous phase and a solid phase, or 2) , The wastewater, abundance, leachate, contaminated water, contaminated groundwater, contaminated river water, reservoir water, settling water, reaction tide, bioreactor tide, flocculation tide, settling tank, settling tide, aeration tank, anaerobic tank, groundwater, river water , River, pond number, fond number, river water number, 4) one or more of calcium, magnesium, potassium, sodium, or other substances, wastes, construction waste, waste water, At least one of industrial waste, municipal waste, contaminated soil, contaminated soil, contaminated soil, selected soil and waste soil, at least one of 2), 3) and 4) Is 0 to 100% by weight or volume or pressure, and 100% is entirety, and each of the components constituting the mixture in the mixing is 0 to 100% by weight or volume or pressure and 100% Wherein at least one of the smaller ranges is at least one of 2), at least one of 3), 4) and then at least one of larger ranges is at least one of 2), 3), 4) For example, one of more than one of the smaller ranges, for example 3) 3) At least one of waste air, waste gas, tunnel air, and polluted air, when the components are waste air and waste gas, the total volume of the waste air is 70% and the waste gas is 30% If at least one of the components 2), 3) and 4), at least one of the components 2) and 3) has a volume ratio of 2) 60% and 3) 40%

Wherein the object is one of a liquid, a weather, a superstructure, an upper liquid, an upper liquid, an upper liquid, an upper liquid, or a repair facility, a repair space, an environmental facility or an environmental space, The liquid phase is a mixture of the liquid phase and the vapor phase. The liquid phase phase is the mixture of the liquid phase and the solid phase, and the upper phase is the phase where the liquid phase is mixed with the liquid phase. Where the liquid phase, the gas phase and the solid phase are mixed, wherein the mixing ratio is a weight ratio or a volume ratio, and each of the components is 0 to 100% and the whole is 100% The repair facilities include dams, banks, estuaries, underwater boats, water gates, river boats, movable boats, tumblers, boats, waterways, waterways, waterways, tunnels, waterways, watertight water circulation facilities, water tanks, , Water tank, flow control tank, manhole, water The water storage tank and the water tank and the repair space is a water storage tank having a water storage tank and a water storage tank which are divided into a water storage tank, Wherein the environmental facility is one of a wastewater tank, a wastewater tank, a sewage box, a liquid tank, a sewage tank, a sewage tank, an excellent tank, a purified water tank, a leachate tank, an inflow tank, Aeration tank, anaerobic tank, denitrification tank, digester tank, thickener tank, disinfection tank, disinfection tank, effluent tank, pipeline, transfer line, transfer tank, sediment tank, neutralization tank, reaction tank, aeration tank, coagulation tank, Pipes, transfer hoses, waterways, waterways, waterways, waste landfill, sanitary landfill, unsanitary landfill, illegal landfill, digging landfill, reclaimed landfill, waste digging site, waste digging site, waste landfill site, mine site, contaminated site, gas Injection tablets, gas extraction tablets, The leachate collection tank, the leachate collection tank, the leachate collection tank, the leachate collection tank, the leachate collection tank, the leachate collection tank, the leachate collection tank, the leachate collection tank, Water treatment plant, water purification plant, waste landfill, sewage treatment plant, sewage treatment plant, storm sewage treatment plant, sewage treatment plant, sewage treatment plant, sewage treatment plant, sewage treatment plant, sewage treatment plant, sewage treatment plant, Water treatment plant, water treatment plant, water treatment plant, leachate treatment plant, nonpoint polluted water treatment plant, riverbed filtration water treatment plant, groundwater treatment plant, and seawater desalination plant.

The description of claim 14 is as follows. [14] The method of any one of claims 3 to 9, wherein one of the passage, the rotor passage, the diaphragm passage, the venturi, the rotary venturi, and the diaphragm venturi is replaced by one or more of the following: A diaphragm extension path, a wired path, a rotating body flow path, a diaphragm wired path, a free path, a rotor free path, and a diaphragm free path, one of which is an orifice, a rotor orifice, a diaphragm orifice, Or more. Wherein one of the passage, the rotor passage, the diaphragm passage, the venturi, the rotary venturi or the diaphragm venturi is replaced by an orifice, a diaphragm passage, a venturi, a revolving venturi or a diaphragm venturi, The diaphragm orifice, the diaphragm orifice, the diaphragm opening diaphragm, the diaphragm opening diaphragm, the diaphragm opening diaphragm, the diaphragm orifice, the diaphragm opening diaphragm, the diaphragm opening diaphragm, the diaphragm opening diaphragm, the diaphragm opening diaphragm, In addition to the passage, the rotor passage, the diaphragm passage, the venturi, the rotary venturi, and the diaphragm venturi, the following are added to the orifice, the rotor orifice, the diaphragm orifice, the diaphragm, , Rotor wire, diaphragm wire, free wire, rotor free wire, diaphragm free wire.

23 shows a schematic view of a passage, a venturi, an orifice, an extension passage, a wired passage, and a free passage of the rotary body according to the present invention. The orifice of the orifice, the rotor orifice, and the diaphragm orifice is a flow passage for piercing the fluid through the opening of the blade, and the rotor orifice is a flow path provided with at least one of the middle, outlet and outlet guides of the orifice, The diaphragm orifice is a flow path having a diaphragm installed in at least one of an intermediate portion and an outlet portion of the orifice, and the diverging passage, the rotary member expanding passage, Wherein the diaphragm extension path is a flow path provided with diaphragm at one or more of the middle and the outlet of the expansion path, In the rotary wired path and the diaphragm wired path, the wired path is a flow path through which a substance flows or flows, and the rotating wired path is a path And the diaphragm wire path is a flow path provided with a diaphragm in at least one of a middle portion and an outlet portion inside the wire path, and the diaphragm wire path is a flow path in which the diaphragm is provided in the middle portion, And a free flow path in which the material passes or flows freely in the diaphragm free path, and the rotor free path is a flow path provided with a rotating body at one or more of the intermediate, outlet and outlet guides of the free path, A diaphragm is installed in at least one of the inner and the outlet.

1: at least one of fluid, wind, water, wind, hydro, tidal, or wave
2: object or object consisting of one or more of liquid, vapor, and solid
5: Electricity 6: Compressed substance 7: Negative substance
10: Rotor 11: Passage 12: Rotor passage
13: diaphragm passage 14: venturi 15: revolving venturi
16: diaphragm venturi 17: outer circumferential flow path 18: circumferential outer circumferential flow path
19: diaphragm outer circumferential channel 20: inlet guide 21: outlet guide
22: Opening day 22-1: Opening part of the day opening 23:
24: rotary compression device 25: rotary negative pressure device 26: compression space
27: negative pressure space 28: spiral, screw, comb, blade 29: diaphragm
30: General compression device 31: General negative pressure device 40: Compressed electricity generation device
41: Negative pressure generating device 42: Compressed negative pressure generating device 50: Electric supply device
51: Compressed substance supply device 52: Negative pressure substance supply device 53: Electric compressed substance supply device
54: Electric negative pressure material supply device 55: Compressed negative pressure material supply device
60: rotating body orifice 61: rotating body extending path
62: Rotor-made wire path 63: Rotor-free path
100: rotating shaft 101: converting device 102: generator
110: crank 111: connecting rod 112: piston
113: screw 114: cylinder
120: compression reservoir 121: compression turbine 122: negative pressure reservoir
123: negative pressure turbine 124: compressed negative pressure turbine
200: electric wire 201: electrode 202:
210: Hose 1 211: Hose control valve 1 212: Side line 1
213: side line control valve 1 214: constant material 1 215: disperser
216: disperser housing 217: disperser indicator
220: Hose 2 221: Hose control valve 2 222: Side line 2
223: Side line regulating valve 2 224: Constant substance 2
225: Suction pipe 245: Rotary compression negative pressure device
300: Circulation 310: Solar cell 311: Collector plate 312: Solar generator
320: a fixed substance loaded on one of a fixed body, an underwater body, an aqueous body, a glue body, a float, or a moving body
321: At least one of the provided wash water, high pressure water, pressure water, nozzle water
322: One or more of hose, nozzle, pipe
330: purification promoting material 331: trench 332:
333: Selection device 334: Selection soil, selected soil
335: External material 336: Extract material 337: External negative pressure
340: wind power 341: hydraulic power 342: tidal force 343: wave power

Claims (14)

(1) generating at least one of electricity, compressed matter, and negative pressure material by rotating the rotating body by at least one of fluid, wind, water, wind force, hydraulic force,
Generating electricity by at least one of sunlight, solar heat (2)
(3) generating at least one of a compression material and a negative pressure material using electricity generated by at least one of (1), (2)
(4) generating electricity using at least one of a compression material and a negative pressure material produced by at least one of (1), (2), and (3)
(1), (2), (3), or (4) to at least one of a liquid, a vapor, and a solid phase ),
Mixing, circulating, convection, deicing, injecting, extracting, and removing contaminants that are present or contained in the object or the target site, or one or more of liquid, vapor, and solid constituting the object or target site, (6) treating at least one of extraction, injection, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation,
, ≪ / RTI > a method for the production, supply and utilization of green electricity and green materials
1) to generate at least one of electricity, compressed material, and negative pressure material by a rotating body rotating by at least one of fluid, wind, water, wind force, hydraulic force,
2) Generate electricity by one or more of sunlight and solar heat in addition to 1)
3) generate one or more of the compressed and / or negative pressure materials using the generated electricity in addition to 1) or 2)
4) generate electricity using one or more of the produced compressed material and negative pressure material in addition to 1) or 2) or 3)
5) Supplying at least one of the generated electricity, compressed material, and negative pressure material to the object or target site composed of one or more of liquid, vapor, and solid phases in addition to 1) or 2) or 3) or 4)
6) In addition to 1) or 2) or 3) or 4) or 5), one or more of liquid, vapor or solid constituting the object or subject itself, or the object or subject, Characterized in that the pollutant is treated with at least one of aeration, mixing, circulation, convection, de-icing, injection, extraction, extraction, aerobic, anaerobic, cleaning, floatation, heating, decomposition, flocculation, Equipment for the generation, supply and utilization of green electricity and green materials
Generating at least one of electricity, compressed matter, and negative pressure material by rotating the rotating body by at least one of fluid, wind, water, wind force, hydraulic force,
Generating electricity by one or more of sunlight, solar heat,
Generating at least one of a compression material, a negative pressure material using the generated electricity,
Generating electricity using at least one of the generated compression material and negative pressure material,
Supplying at least one of the generated electricity, the compressed material and the negative pressure material to an object or a target site composed of at least one of a liquid phase, a gas phase and a solid phase,
Mixing, circulating, convection, de-icing, injection, extraction, etc. of the object or object itself, or at least one of liquid, vapor and solid constituting the object or object, or contaminant present or contained in the object or object , Treatment with one or more of extraction, injection, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation,
Or more,
The rotating body 10, the passage 11, the rotating body passage 12, the diaphragm passage 12, and the diaphragm passage 12, which generate at least one of the electricity 5, the compressed substance 6 and the negative pressure substance 7 by the rotating rotating body, The venturi 14, the venturi 15, the diaphragm venturi 16, the outer circumferential passage 17, the circumferential outer circumferential passage 18, the diaphragm outer circumferential passage 19, the inlet guide 20, The rotary compression device 24, the rotary negative pressure device 25, the rotary compression negative pressure device 245, the compression space 26, the negative pressure space 27 ), ≪ / RTI >
The rotating body includes a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a wheelbarrow, a wing car, a windmill, Common, cone with wing, cone with spiral, cone with wing, cap with spiral, cone with wing, cone with spiral, cone with wing, cone with wing, cone with spiral, top with wing, top with spiral, funnel with spiral, with spiral It is one of the funnels,
Generating electricity by at least one of the solar light and the solar heat is performed by at least one of a solar power generation device and a solar power generation device,
Generating at least one of the compressed material and the negative pressure material using the generated electricity is performed by at least one of a general compression device and a general negative pressure device,
Wherein the generation of electricity using at least one of the generated compression material and the negative pressure material is performed by at least one of a compression power generation device, a negative pressure generation device, and a compression negative pressure generation device,
The method for supplying an object or target comprising at least one of the generated electricity, compressed material and negative pressure material to at least one of a liquid phase, a vapor phase and a solid phase includes an electric power supply device, a compressed material supply device, a negative pressure material supply device, , An electric negative pressure material supply device, a compressed negative pressure material supply device,
The aeration is performed by at least one of an electric aeration, a compression aeration, a negative pressure aerator, a rotary braking device, a falling aerator,
The mixing may be performed by supplying at least one of electricity, compressed material, a certain substance 1, a negative pressure substance, and a certain substance 2 to the object or a subject or by supplying at least one of an electric aeration, a compression aeration, a negative pressure aerator, One or more of a liquid phase, a vapor phase, and a solid phase constituting the object or the object itself or the object or the object are mixed with each other,
The circulation may be performed by supplying at least one of electricity, a compressed material, a constant material 1, a negative pressure material, and a constant material 2 to an object or a target, or at least one of an electric aeration, a compression aeration, a negative pressure aerator, And at least one of a liquid phase, a vapor phase, and a solid phase constituting the object or the object is circulated,
The convection is performed by at least one of electric convection, compression convection,
Wherein the ice making is performed by at least one of electric ice making, compression ice making, and negative pressure ice making,
Wherein the implantation is performed by at least one of electrical injection, compression implant,
The extraction may be performed by inserting or inserting at least one of a porous material, a gas phase, and a solid object into one or more objects or a target site, connecting at least one of the hose 2 and the side line 2 to at least one of the porous pipe and the non- 2, the side line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of the fluid tube and the void, And at least one of a gas phase, a solid phase, a leachate, a polluted water, a pollutant, a gas, an odor, and an odor,
The extraction injection A hose 2, a side wall 2, a side wall 3, a side wall 3, a side wall 3, a side wall 3, a side wall 2, Line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of a pipe or a hollow pipe, and the liquid or vapor phase or solid phase present or contained in the object or object Extracting at least one of leachate, contaminated water, pollutant, gas, odor, and smell, and re-injecting the extracted extract or one or more of the predetermined substances 1 to the object or target site through one or more of the other pores Lt; / RTI &
Wherein the exhalation unit is performed by at least one of an electric unit and a compressor unit,
The anaerobic tank may be supplied with a negative pressure or a vacuum in the negative pressure material through at least one of the hose 2 itself or a pipe connected to the hose 2 or the hollow pipe to an object or object made up of at least one of liquid, By extracting the existing or contained gas phase to reduce oxygen or air in the object or the object to be anaerobic,
The cleaning is performed by at least one of compressive cleaning and negative pressure cleaning,
The floatation is performed by at least one of electrophoresis, compression float, and negative pressure float,
The removal is carried out by at least one of contaminant removal, sediment removal, suspension removal, algae removal, red tide removal,
The heating is performed by at least one of electric heating, hot air heating and hot water heating,
The decomposition is carried out by at least one of electrolysis, aerobic decomposition, and anaerobic decomposition,
The coagulation is carried out by at least one of electrocoagulation, compression coagulation,
The precipitation is carried out by precipitating or precipitating the electrocoagulated or press agglomerated agglomerates to the bottom or bottom of the object or subject,
The purification may purify the object or the target itself by at least one of aeration, mixing, circulation, convection, deicing, injection, extraction, extraction injection, exhalation, anaerobic cleaning, floatation, removal, heating, , Or by purifying one or more of liquid, vapor, and solid phases constituting the object or target site, or purifying the contaminants present or contained in the object or target site, Device for use
A rotating diaphragm venturi, an outer diaphragm, an outer diaphragm outer diaphragm, an outer diaphragm outer diaphragm, an inlet guide, an outlet guide, a blade opening, a rotary generator, a rotary compressor, Compressing material, and negative pressure material by at least one of a rotating negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space,
Generating at least one of a compression material, a negative pressure material by at least one of a general compression device, a general negative pressure device,
Generating electricity by at least one of a compression power generation device, a negative pressure power generation device, and a compression negative pressure power generation device using at least one of the generated and externally provided compression materials and negative pressure materials;
Wherein at least one of the generated electricity, compressed material, and negative pressure material is supplied by at least one of an electric supply device, a compressed material supply device, a negative pressure material supply device, an electric compression material supply device, an electric negative pressure material supply device, Supplying to an object or target site composed of at least one of liquid, vapor, and solid,
Mixing, circulating, convection, de-icing, injection, extraction, etc. of the object or object itself, or at least one of liquid, vapor and solid constituting the object or object, or contaminant present or contained in the object or object , Treatment with one or more of extraction, injection, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation,
Or more,
The rotating body includes a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a wheelbarrow, a wing car, a windmill, Common, cone with wing, cone with spiral, cone with wing, cap with spiral, cone with wing, cone with spiral, cone with wing, cone with wing, cone with spiral, top with wing, top with spiral, funnel with spiral, with spiral It is one of the funnels,
The compression and power generation apparatus generates electricity using a compression material, which is composed of at least one of a compression reservoir, a compression turbine, and a generator,
The negative pressure generator generates electricity using a negative pressure material, which is composed of at least one of a negative pressure reservoir, a negative pressure turbine, and a generator,
The compression negative pressure generation device generates electricity using a compression material and a negative pressure material, and is composed of at least one of a compression reservoir, a negative pressure reservoir, a compression negative pressure turbine, and a generator,
Wherein the electric power supply device is constituted by at least one of an electric wire, an electrode and a heating wire,
The compressed material supply device is constituted by at least one of a hose 1, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing,
The negative pressure material supply device is composed of at least one of a hose 2, a hose control valve 2, a side line 2, a side line control valve 2, and a suction pipe,
The electrically compressed material supply device includes at least one of an electric wire serving as an electric supply device, a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, Or more,
The electric negative pressure material supply device is composed of at least one of electric wires and electrodes as an electric supply device, a hose 2 as a negative pressure material supply device, a hose control valve 2, a side line 2, a side line control valve 2,
The compressed negative pressure material supply device includes at least one of a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing and a dispersing device indicator, a hose 2 as a negative pressure material supply device, Characterized in that it comprises at least one of a control valve (2), a sideline (2), a sideline control valve (2), and a suction pipe
A rotating diaphragm venturi, an outer diaphragm, an outer diaphragm outer diaphragm, an outer diaphragm outer diaphragm, an inlet guide, an outlet guide, a blade opening, a rotary generator, a rotary compressor, At least one of a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space,
The water treatment system may be installed in one of the inside, outside, and periphery of one of a repair facility, a repair space, an environmental facility, and an environmental space, or may be installed in one of a fixed body, an underwater body, an opaque body, , Water, glide, float, move, create one or more of electricity, compressed material,
Generating a compressed material by at least one of a generic compression device, a general negative pressure device using one or more of the generation, externally providing,
Do one or more of the following,
Supplying the generated electricity to an object or a target through a wire or an electrode,
Or at least one of the generated compressed material or an externally provided wash water, high pressure water, pressure water and nozzle water, or at least one of the generated compressed material and the externally provided wash water, high pressure water, Slag, loess, 5-99 parts by weight of slag, 5 to 99 parts by weight of slag, activated charcoal, activated charcoal, or the like, which is loaded on one of the above-mentioned fixed body, underwater body, It is sprayed or sprayed on a certain material composed of at least one of charcoal, charcoal, zeolite, surfactant, construction waste, waste concrete, waste cement, recycled aggregate, recycled aggregate and recycled aggregate, ,
Mixing, circulating, convection, de-icing, injection, extraction, extraction and injection of at least one of liquid, vapor, and solid phases constituting the object or the object itself or the object or object or contaminants present or contained in the object or object, Treatment with one or more of aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation,
Or a green algae, a red tide, or a green algae present or contained in an object or a target is treated with at least one of aeration, removal, agglomeration, sedimentation, and purification. Device
A rotating diaphragm venturi, an outer diaphragm, an outer diaphragm outer diaphragm, an outer diaphragm outer diaphragm, an inlet guide, an outlet guide, a blade opening, a rotary generator, a rotary compressor, Generating at least one of electricity, compression material, and negative pressure material by at least one of a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space,
Generating at least one of a compression material, a negative pressure material by at least one of a general compression device, a general negative pressure device,
Do one or more of the following,
At least one of the generated and externally provided electricity is supplied to or added to the electrodes of the anode and the cathode embedded in the object or the object to generate at least one of an electrolysis phenomenon, an electroosmosis phenomenon, an electric transfer phenomenon, an electroosmotic transfer phenomenon, And at least one of the polluted water, pollutants, and organic matter present in the water is directly transferred to the cathode from the cathode, or the generated negative pressure material or an externally supplied negative pressure material is applied to the cathode, Or more is extracted from the negative electrode to the outside by negative pressure,
The electricity generated or supplied to the electrodes of the positive and negative electrodes installed in at least one of the trench, the pipe, and the non-hollow pipe provided in the object or the target and supplied or not supplied with the purification promoting material is electrolyzed, At least one of an electric osmosis phenomenon, an electrophoresis phenomenon, an electrophoresis phenomenon, and / or an electrophoresis phenomenon, and at least one of pollution water, contaminants, and organic substances present therein is directly transferred from the cathode to the cathode, Adding an external provided negative pressure material to the negative electrode to extract at least one of contaminated water, contaminants, and organic substances from the negative electrode to the outside with a negative pressure,
At least one of the generated negative pressure material, the externally provided vacuum, and the external negative pressure of the vacuum pressure is supplied or added to the object or target to extract at least one of the leachate, contaminated water, air, polluted air, gas, odor, doing,
The generated compressed material, externally provided bubbles, oxygen, ozone, carbon gas, carbon dioxide gas, carbonated water, pressure water, high pressure water, compressed air, pressure air, surfactant, moisture, water, Or extracting one or more extracted substances from one or more of the smog, the extracted leachate, the polluted water, the air, the polluted air, the gas, the odor, the smell,
Mixing, circulating, convection, de-icing, pouring, spraying, or spraying the object or object itself, or at least one of liquid, vapor, and solid phases constituting the object or object, Treatment with one or more of the following: extraction, extraction, injection, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation and purification; or treatment of the object or subject with premature stabilization, odor stabilization, selective soil erosion, stabilization, Or more,
At least one of the negative pressure substance, the external negative pressure, or one or more external substances, or at least one extract substance, or at least one of a compressed substance, an external substance, and an extract substance, The volume or pressure is 0 to 100%, the whole is 100%
The size of the foreign matter is 10 ^-1 to 1 × 10 ^-2 * 1 m meter cm size, 0.9 * 10 ^-2 to 1 × 10 ^-3 m centimeters millimeter size, 0.9 * 10 ^-3 to 1 * 10 ^{- 6} m milli-micrometer size, 0.9 * 10 ^-6 - 10 ^-9 m ~1 micro nanometer size, 0.9 * 10 ^-9 ~1 × 10 ^-12 m nano picometers size, 0.9 * 10 ^-12 to the Is one of the pico-femtometer sizes of 1 * 10 ^-15 m,
The extracted pressure is one of low pressure, medium pressure, high pressure, no pressure, hydraulic pressure, gravity pressure, atmospheric pressure and other pressures. The low pressure is -1 × 10 ^-100 to ^-10 kg / cm ² or 101-759 Torr, -100kg / cm ² or 11~100Torr, high pressure is ^{-101~-1 × 10 100 kg /} cm 2 or 1 × 10 ^-100 ~10Torr, muap the pressure of 0kg / cm ^2, the hydraulic pressure is greater than 0kg / cm ² Pressure, gravity pressure is gravity pressure, atmospheric pressure is atmospheric pressure, and other pressures are pressure other than low pressure, medium pressure, high pressure, no pressure, hydraulic pressure, gravity pressure,
Pressure at which the supply or injection is a low-pressure, medium pressure, high pressure, muap, hydraulic, gravitational pressure, either atmospheric pressure, the other pressure, the low pressure is ^{1 × 10 -100 ~10kg / cm 2} , the intermediate pressure is 11~100kg / cm ^2, High pressure is the pressure, the hydraulic pressure is large, the gravity pressure than 0kg / cm ² of ^{101~1 × 10 100 kg / cm 2} , muap is 0kg / cm ² pressure is atmospheric pressure in the gravity pressure, or other pressure of the atmosphere is a low pressure, Wherein the pressure is a pressure other than a medium pressure, a high pressure, a pressure, a hydraulic pressure, a gravity pressure and an atmospheric pressure.
Installed in one of the facilities, structure, interior, exterior, and periphery of one of the repairing, repairing, environmental,
Which is mounted on one of a fixed body, an underwater body, an aqueous body, a glue body, a float,
Or in the form of one of fixed, water, water, glide, float,
A rotating diaphragm venturi, an outer diaphragm, an outer diaphragm outer diaphragm, an outer diaphragm outer diaphragm, an inlet guide, an outlet guide, a blade opening, a rotary generator, a rotary compressor, Generating at least one of electricity, compression material, and negative pressure material by at least one of a rotary negative pressure device, a rotary compression negative pressure device, a compression space, and a negative pressure space,
Generating at least one of a compression material, a negative pressure material by at least one of a general compression device, a general negative pressure device,
Do one or more of the following,
Wherein at least one of the generated electricity, compressed material, and negative pressure material is supplied by at least one of an electric supply device, a compressed material supply device, a negative pressure material supply device, an electrically compressed material supply device, an electric negative pressure material supply device, , A repair facility, a repair space, an environmental facility, an environmental space, or one or more of liquid, vapor, and solid,
The supply may include, but is not limited to, a repair facility, a repair space, an environmental facility, an environmental space, or an object or object itself, or at least one of liquid, vapor, and solid constituting the object or object, Treating the pollutant with at least one of aeration, mixing, circulation, convection, deicing, injection, extraction, extraction injection, expiration, anaerobic cleaning, floatation, removal, heating, decomposition, coagulation, sedimentation,
The above-mentioned repair facilities include dams, banks, estuaries, underwater boats, water gates, river boats, movable boats, water gates, boats, waterways, waterways, waterways, tunnel waterways, waterways, watertight water circulation facilities, water tanks, , A water tank, a flow rate adjusting tank, a manhole, a water reservoir, and a water box,
The above-mentioned repair space can be divided into a coast, a sea, a sea, a river, a river, a river, a stream, a stream, a city, a waterway, a bath, a hot spring, a steam room, a swimming pool, a farm, a fish farm, Mooring ground, and lakes,
The environmental facilities include a wastewater tank, a wastewater box, a sewage box, a liquid tank, a sewage tank, a sewage tank, an excellent tank, a purified water tank, a leachate tank, an inflow tank, a storage tank, a reservoir tank, The present invention relates to a method and apparatus for disinfecting and disinfecting waste water in a sewage disposal plant such as sewage treatment plant, Waste landfill site, waste landfill site, mine site, contaminated site, gas injection site, gas extraction site, gas capture site, leachate collection pipe, leachate site, sanitary landfill site, unsanitary landfill site, illegal landfill site, excavated landfill site, It is one of the injection wells, the leachate extraction wells, the leaching collection correction, the leaching,
The environmental space may include at least one of a sewage tank, a wastewater storage tank, a sewage tank, a stormwater storage tank, a water storage tank, a water storage tank, a water storage tank, a leachate storage tank, a non-point polluted water storage tank, a riverside filtration water storage tank, a groundwater storage tank, a seawater storage tank, Is characterized in that it is one of a purification plant, a waste landfill, a sewage treatment plant, a wastewater treatment plant, a sewage treatment plant, a storm sewage treatment plant, a water treatment plant, a water treatment plant, a water treatment plant, a leachate treatment plant, Equipment for the generation, supply and utilization of green electricity and green materials
Installed, laid, or mounted in the form of one or more of the following: fixed, submerged, anchor, subtype, glide,
Electric power by at least one of a rotary electric generator, a rotary electric generator, a rotary compression device, a rotary negative pressure device, a rotary compression negative pressure device, a solar power generation device, a tidal power generation device, a wave power generation device, a compression power generation device, , Compression material, negative pressure material,
Wherein at least one of the generated electricity, compressed material, and negative pressure material is supplied by at least one of an electric supply device, a compressed material supply device, a negative pressure material supply device, an electric compression material supply device, an electric negative pressure material supply device, Supplying to an object or target site composed of at least one of liquid, vapor, and solid,
Or more,
The rotating body includes a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a wheelbarrow, a wing car, a windmill, Common, cone with wing, cone with spiral, cone with wing, cap with spiral, cone with wing, cone with spiral, cone with wing, cone with wing, cone with spiral, top with wing, top with spiral, funnel with spiral, with spiral It is one of the funnels,
The rotary generator generates electricity by using the rotary motion of the rotating body,
The rotary compression apparatus is a device for generating a compressed material by using a rotary motion of a rotating body,
The rotary negative pressure device is a device for generating a negative pressure material by using the rotary motion of the rotary body,
The solar power generation apparatus generates electricity using the sun, which is divided into a solar power generation apparatus and a solar power generation apparatus,
The solar photovoltaic device is a device that generates electricity using solar energy,
The solar thermal power generation apparatus is an apparatus that generates electricity using thermal energy of the sun,
The tidal power generator generates electricity by using a rotational motion of a rotating body rotating by a tidal force,
The wave power generator generates electricity by using a rotational motion of a rotating body rotating by a wave force, a wave flow, or a wave force,
The compression and power generation apparatus generates electricity using a compression material, which is composed of at least one of a compression reservoir, a compression turbine, and a generator,
The negative pressure generator generates electricity using a negative pressure material, which is composed of at least one of a negative pressure reservoir, a negative pressure turbine, and a generator,
The compression negative pressure generation device generates electricity using a compression material and a negative pressure material, and is composed of at least one of a compression reservoir, a negative pressure reservoir, a compression negative pressure turbine, and a generator,
Wherein the electric power supply device is constituted by at least one of an electric wire, an electrode and a heating wire,
The compressed material supply device is constituted by at least one of a hose 1, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing,
The negative pressure material supply device is composed of at least one of a hose 2, a hose control valve 2, a side line 2, a side line control valve 2, and a suction pipe,
The electrically compressed material supply device includes at least one of an electric wire serving as an electric supply device, a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, Or more,
The electric negative pressure material supply device is composed of at least one of electric wires and electrodes as an electric supply device, a hose 2 as a negative pressure material supply device, a hose control valve 2, a side line 2, a side line control valve 2,
The compressed negative pressure material supply device includes at least one of a hose 1 as a compressed material supply device, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing and a dispersing device indicator, a hose 2 as a negative pressure material supply device, Characterized in that it comprises at least one of a control valve (2), a sideline (2), a sideline control valve (2), and a suction pipe
9. The method according to any one of claims 3 to 8,
The rotary body 10, the passage 11, the rotary body passage 12, the diaphragm passage 13, the venturi 14, the rotary venturi 15, the diaphragm venturi 16, the outer peripheral flow passage 17, The outer peripheral flow passage 18, the diaphragm outer peripheral flow passage 19, the inlet guide 20, the outlet guide 21, the blade opening 22, the rotary electric power generator 23, the rotary compressor 24, (5), the compressed material (6), and the negative pressure material (7) by at least one of the compression and decompression device (24), the rotary compression and decompression device (245) ,
1) The rotating body may be installed on itself or on at least one of the opening portion 22-1 of the blade opening, the rotating body passage, the rotating body venturi, the outer peripheral flow passage of the rotating body, and the outlet guide, An inlet guide or a wing membrane is attached,
The rotation of the rotating body 10 is rotated by itself or an external force,
At least one of the rotary electric generator 23, the rotary compressor 24, the rotary negative pressure device 25 and the rotary compression negative pressure device 245 is connected to the rotary body 10,
The shape of the rotor may be a blade, a vertical blade, a horizontal blade, a vane, a turbine, a wing, a propeller, an impeller, a vane, a wheelbarrow, a wing car, a windmill, It is common to attach, cone with wing, cone with spiral, cone with wing, cone with spiral, cone with wing, cone with spiral, cone with wing, cone with spiral, cone with spiral, top with wing, top with spiral, It is one of the spiral attachment funnels,
2) The passage among the passage 11, the rotor passage 12 and the diaphragm passage 13 is a passage through which the substance passes or flows. The rotor passage is connected to one or more of the middle, And the diaphragm passage is a passage in which the diaphragm 29 is provided in at least one of the middle and the outlet in the passage,
At least one of the passage, the rotor passage, and the diaphragm passage may be free space or attached to the rear outer periphery or the blade opening of the rotor, or may be attached to the other side thereof with an outlet guide,
Wherein at least one of the passage and the rotor passage is provided with a rotating body,
One of the spiral, the screw, the comb, and the blade is attached or not attached to the inside of the rotor passage,
Wherein at least one of a rotary generator, a rotary compressor, a rotary negative pressure device, and a rotary compression negative pressure device is connected to the rotary body provided in the rotary passage,
At least one of an inlet guide, an outlet guide, a diaphragm front portion, and a diaphragm rear portion of at least one of the passage, the rotor passage, and the diaphragm passage includes at least one of a compression space, a negative pressure space, a compression power generation device, a negative pressure generation device, Is present or mounted,
3) Among the venturi (14), the revolving venturi (15) and the diaphragm venturi (16), the Venturi is a flow passage having a smaller inlet cross section than the previous Venturi, and the revolving venturi is connected to at least one of the middle, Wherein the diaphragm venturi is a diaphragm-equipped diaphragm in at least one of the middle and the outlet of the venturi,
At least one of the venturi, the revolving venturi, and the diaphragm venturi is attached to an inlet guide or a blade opening opening attached to the rear periphery of the rotating body, or in addition, an outlet guide is attached to the other side thereof,
Wherein at least one of the venturi and the revolving venturi is provided with a rotary body installed or not installed,
One of the spiral, the screw, the comb, and the blade is attached or not attached to the interior of the rotary venturi,
Wherein at least one of a rotary generator, a rotary compressor, a rotary negative pressure device, and a rotary compression negative pressure device is connected to the rotary body installed in the rotary venturi,
Wherein at least one of the inlet guide, the outlet guide, the diaphragm front portion, and the diaphragm rear portion of at least one of the venturi, the revolving venturi, and the diaphragm venturi has at least one of a compression space, a negative pressure space, a compression power generation device, a negative pressure generation device, Is present or mounted,
4) The outer circumferential passage among the outer circumferential passage 17, the outer circumferential outer circumferential passage 18 of the rotating body, and the outer circumferential passage 19 is formed as a passage formed in the outer periphery of at least one of the passage, the rotor passage, the diaphragm passage, the venturi, And the outer circumferential flow path of the rotating body is a flow path provided with at least one of the middle, outlet and outlet guides of the outer circumferential flow path, and the diaphragm outer circumferential flow path is a flow path in which the diaphragm is installed at one or more of the middle, ego,
At least one of the outer circumferential passage, the outer circumferential passage of the rotating body, and the outer circumferential passage of the diaphragm may be free space or attached to the inlet guide or the opening of the blade opening, or additionally,
Wherein at least one of the outer circumferential flow path and the outer circumferential flow path of the rotating body is provided with or without a rotating body,
One of the spiral, the screw, the comb, and the blade is attached or not attached to the outer periphery of the rotating body,
At least one of a rotary generator, a rotary compressor, a rotary negative pressure device, and a rotary compression negative pressure device is connected to the rotary body provided in the outer circumferential flow path of the rotary body,
Wherein at least one of the inlet guide, the outlet guide, the diaphragm front portion, and the diaphragm rear portion of at least one of the outer circumferential passage, the outer circumferential passage of the rotating member, and the diaphragm outer circumferential passage has a compression space, a negative pressure space, Lt; / RTI > is present or mounted,
5) The inlet guide 20 is a flow path having one side wide and the other side having a relatively narrow cross-sectional area, one side of which is a free space or attached to at least one of the outer periphery of the rear face of the rotating body and the opening of the blade opening, The outer periphery of the entire front surface of the passage, the outer periphery of the front surface of the passage, the outer periphery of the front surface of the diaphragm passage, the outer periphery of the venturi, the outer periphery of the venturi, At least one of a front outer periphery of the flow path and a front outer periphery of the diaphragm outer flow path,
Wherein when the compression material is generated in the inlet guide and electricity is generated using the compression material, the compression power generator is connected to the inlet guide,
The installation angle of the inlet guide or the angle between the wide one side and the narrow side of the inlet guide is 0 to 89.999 degrees with respect to the horizontal or vertical,
6) The outlet guide 21 is a channel having a narrow side on one side and a relatively wide cross sectional area on the other side, and one side of the channel is formed on the outer periphery of the rear surface of the passage, the outer periphery of the rear surface of the rotor passage, the outer periphery of the rear surface of the diaphragm passage, A rear outer periphery of the venturi, a rear outer periphery of the diaphragm venturi, a rear outer periphery of the outer periphery passage, a rear outer periphery of the outer periphery of the rotating body, and a rear outer periphery of the diaphragm outer periphery passage, and the other side thereof is free space or none ,
When the negative pressure material is generated in the outlet guide and electricity is to be generated using the negative pressure material, the negative pressure generator is connected to the outlet guide,
In the case of rotating the rotating body using a passing material flowing through the inner space of the outlet guide, a rotating body is installed in the inner space of the outlet guide,
At least one of the rotary generator (23), rotary compressor (24), rotary negative pressure device (25) and rotary compression negative pressure device (245) is connected to the rotary body (10)
The installation angle of the exit guide or the angle between the narrow side of the exit guide and the wide side is 0 to 89.999 degrees with respect to the horizontal or vertical,
7) The blade opening 22 is one of a fluid film, a windshield, a water film, a tea film, a car windshield, a windshield, a windshield, a windshield, a waterproof film,
Wherein the openings of the blade have no openings or openings of one or more openings,
Wherein the opening is one of an opening, an opening, a hole, a slot, a slit, a hole, a passage,
One of the rotating body, the passage, the rotor passage, the diaphragm passage, the venturi, the revolving venturi, the diaphragm venturi, the outer circumferential passage, the outer circumferential passage of the rotating body, the outer diaphragm passage and the inlet guide is attached Or located,
8) The rotary power generator 23 generates electricity using the rotary motion of the rotating body,
In one application of the rotary power generation device, the rotary power generation device is constituted by a conversion device and a generator, and the rotary motion of the rotary body is transmitted to the conversion device 101 through the rotary shaft 100 and the rotation speed of the rotary motion is accelerated To the generator 102 to convert the mechanical energy into electrical energy at the generator to generate electricity 5,
9) The rotary compression apparatus 24 is a device for generating a compressed material by using the rotary motion of the rotating body,
One application of the rotary compression apparatus is that the rotary compression apparatus is constituted by at least one of a piston 112, a screw 113 and a cylinder 114, and in the case where the rotary compression apparatus is constituted by a piston and a cylinder, The motion causes the piston 112 to reciprocate linearly through the connecting rod 111 via the crank 110 via the rotary shaft 100 to compress air or water in the cylinder 114 while compressing the compressed air or compressed water, In the case where the rotary compression device is composed of a screw and a cylinder, the rotary motion of the rotary body rotates the screw 113 through the rotary shaft 100 so that the screw rotates, To generate a compressed air of compressed air or compressed water,
10) Rotary negative pressure device 25 is a device for generating negative pressure material by using rotational motion of a rotating body,
One application of the rotary negative pressure apparatus is that the rotary negative pressure apparatus is constituted by at least one of the piston 112, the screw 113 and the cylinder 114, and in the case where the rotary negative pressure apparatus is constituted by the piston and the cylinder, Motion causes the piston 112 to linearly reciprocate through the connecting rod 111 via the crank 110 via the rotary shaft 100 to draw air or water in the cylinder 114 to generate negative pressure air or negative pressure negative pressure material In the case where the rotary negative pressure device is composed of a screw and a cylinder, the rotary motion of the rotary body rotates the screw 113 through the rotary shaft 100 to pull air or water in the cylinder 114 while rotating the screw Negative pressure air or negative pressure water,
11) The rotary compression negative pressure apparatus 245 is a device for generating a compressed material and a negative pressure material by using the rotary motion of the rotating body,
One application of the rotary compression negative pressure apparatus is that when the rotary compression negative pressure apparatus is constituted by at least one of the piston 112, the screw 113 and the cylinder 114 and the rotary compression negative pressure apparatus is composed of the piston and the cylinder The entire rotary motion causes the piston 112 to linearly reciprocate through the connecting rod 111 via the crank 110 via the rotary shaft 100 so that the piston compresses the air or water in the cylinder 114 while compressing it, A negative pressure is generated in the cylinder on the opposite side of the piston on the side of the piston where the compressed material is generated, thereby generating negative pressure air or negative pressure water by pulling air or water, When the compression negative pressure device is composed of a screw and a cylinder, the rotary motion of the rotary body rotates the screw 113 through the rotary shaft 100 so that the screw rotates, 14 or compressed air to generate compressed air or compressed water of the compressed water, and at the other side opposite to the one side, the screw is rotated to draw air or water in the cylinder 114 to generate negative pressure air or negative pressure water Lt; / RTI >
12) The compression space 26 has a pressure greater than the pressure at which the material entering or entering the at least one of the diaphragm forward portion of the diaphragm passage, the diaphragm forward portion of the diaphragm venturi, the diaphragm forward portion of the diaphragm outer peripheral flow passage, Compressed material is created here as a space,
13) The negative pressure space 27 is formed by spreading or passing the substance from at least one of the diaphragm rear portion of the diaphragm passage, the diaphragm rear portion of the diaphragm venturi, the diaphragm rear portion of the diaphragm outer peripheral passage, the exit guide, the venturi, Or a space in which the pressure is lower than the pressure at which it is introduced or passed, wherein a negative pressure material is produced.
9. The method according to any one of claims 3 to 8,
Generating electricity by using at least one of the generated and externally provided compressed material and negative pressure material by at least one of the compression power generator 40, the negative pressure generator 41 and the compression negative pressure generator 42 As a result,
1) Compressed power generation apparatus 40 generates electricity 5 using a compressed material 6 which is composed of at least one of a compression reservoir 120, a compression turbine 121 and a generator 102, The compression material is directly sent to the compression turbine or the compressed material is stored in the compression reservoir through the hose 210 and the stored compressed material is sent to the compression turbine to generate electricity in the generator connected to the compression turbine,
2) The negative pressure generating device 41 generates the electricity 5 using the negative pressure material 7 and is composed of at least one of the negative pressure reservoir 122, the negative pressure turbine 123 and the generator 102, The negative pressure material is directly sent to the negative pressure turbine or the negative pressure material is stored in the negative pressure reservoir through the hose 220 and the stored negative pressure material is sent to the negative pressure turbine to generate electricity in the generator connected to the compression turbine,
3) The compression negative pressure generating device 42 generates the electricity 5 using the compressed material 6 and the negative pressure material 7, which includes the compression reservoir 120, the negative pressure reservoir 122, the compressed negative pressure turbine 124, and a generator 102 to send compressed material and negative pressure material directly to the compressed negative pressure turbine, or to store the compressed material in the compression reservoir through the hose 210 and compress the negative pressure material into the hose 220, And the generated compressed material and the negative pressure material are sent to the compressed negative pressure turbine to generate electricity in the generator connected to the compressed negative pressure turbine.
9. The method according to any one of claims 3 to 8,
The compressed material supply device 51, the negative pressure material supply device 52, the electrically compressed material supply device 53, the electric negative pressure material supply device 53, (54) and a compressed negative pressure material supply device (55), or to an object (2) composed of at least one of a liquid phase, a gas phase and a solid phase,
The feed is one of feeding, spraying, ejecting, dispersing, injecting, spraying, laying, throwing, throwing,
1) The electric power supply device 50 is composed of at least one of the electric wire 200, the electrode 201, and the electric heating wire 202,
The electric wire is a line for transmitting electricity from the place where electricity is generated to at least one of the electrode and the heating wire,
The electrode is an object composed of at least one of liquid, vapor, and solid, or a conductor that is embedded or intruded into a target site to supply electric power from a wire to an object or target,
When the electrode is a direct current, the electrode is made of two electrodes, that is, an anode and a cathode. In the case of AC,
The heating wire is heated or heated by electric power supplied from an electric wire or an object or an object made of at least one of liquid, vapor and solid,
2) Compressed material supply device 51 includes hose 1 210, hose control valve 1 211, side line 1 212, side line control valve 1 213, disperser 215, disperser housing 216, And a disperser indicator 217,
The hose 1 210 may be a tube or a passage, and may include at least one of delivering the compressed material from the place where the compressed material is generated to the dispersing device, supplying the compressed material directly from the place where the compressed material is generated to the object or the object ,
The inlet of the hose 1 is connected to the place where the compressed material is produced and the outlet is connected to one of at least one of the disperser, the object or the object,
The hose control valve 1 (211) is a valve for regulating the supply amount through the hose 1,
When the number of the hoses 1 is two or more, the hose control valve 1 is provided for the hose 1,
The sideline 1 212 is applied when it is desired to deliver or supply a certain substance 1 214 other than the compressed substance,
The sidewall 1 is a pipe or a passage which is used to deliver a certain substance 1 to a dispersing device, to feed a certain substance 1 directly to a subject or a subject, to connect the hose 1 to introduce a substance 1 into the hose 1 And,
The inlet of the side line 1 is a place where a certain substance 1 is introduced and the outlet is connected to one of at least one of a disperser, an object or a target site, a hose 1,
The constant material 1 injected into the hose 1 through the side line 1 is mixed with the compressed material in the hose 1,
The proportion of the compressed material and the predetermined material 1 mixed or transferred or supplied is 0 to 100% by weight or 100% by volume of the compressed material and the predetermined material 1, respectively,
The side line control valve 1 (213) is a valve for controlling an amount of input through the side line 1,
In the case where the number of the side lines 1 is two or more, the side line control valve 1 is provided for each side line 1,
5 to 99 parts by weight of bubbles, oxygen, ozone, carbon gas, carbonic acid gas, carbonated water, pressure water, high pressure water, pressure air, high pressure air, loess, slag, Wherein the microorganism is at least one or more selected from the group consisting of activated charcoal, charcoal, charcoal, zeolite, surfactant, salt, sodium hydroxide (NaOH), microorganism, water, water, steam, mist, smoke, fog, fog,
The microorganisms are classified into general microorganisms and useful microorganisms,
The general microorganism is a microorganism other than the useful microorganism,
Wherein said useful microorganism is at least one of lactic acid bacteria, radiation bacteria, photosynthetic bacteria, yeast bacteria,
The compressed material is supplied to the object or target from one or more of the outlet of the hose 1, the disperser connected to the outlet of the hose 1,
The constant material 1 is supplied to an object or a destination from at least one of the outlet of the side line 1, the outlet of the hose 1, the disperser connected to the outlet of the side line 1, and the disperser connected to the outlet of the hose 1,
When the constant material 1 is supplied from the disperser connected to the outlet of the side line 1 and the outlet of the side line 1, only the certain material 1 is supplied,
When the constant material 1 is supplied from the disperser connected to the outlet of the hose 1 and the outlet of the hose 1, it is mixed and supplied as the compressed material in the hose 1,
The outlet of the hose 1, the outlet of the side line 1, is a hollow or hollow opening centered on the end of the pipe or passage,
The dispersing device 215 is connected to at least one of the outlet of the hose 1 and the outlet of the side line 1 so that one or more of the compressed substances 1 provided from at least one of the hose 1 and the side line 1 is discharged into a liquid phase, , Which is one of a blowing plate, an acid substrate, an air diffuser, a blower, a nozzle, a sprinkler, and a hollow pipe,
The hole plate is a plate having one or more holes,
The acid substrate is a plate made of a porous material,
The acid pipe is a pipe made of a porous material,
Wherein the conveying pipe is a pipe or pipe,
Wherein the nozzle is a pointed nozzle,
The sprinkler sprinkles water while rotating,
Wherein the perforated pipe is a pipe having a predetermined length in which at least one perforation hole is formed in the outer periphery,
The hose 1, the side line 1, the end of the perforated pipe, the whole or a part thereof, is embedded in at least one of the liquid, vapor and solid phase of the object or the object, or the point, line, line, parallel line, , A grid, a grid, a mesh, or a free shape.
The distributor housing 216 is a housing for covering, engraving, or cradling at least one of the outlet of the hose 1, the outlet of the side line 1, the blowing plate, the acid substrate, the diffuser, , Cart, box, barrel, cover, cage,
The disperser indicator 217 is a float or float that indicates the position of at least one of the outlet of the hose 1, the outlet of the side line 1, the disperser, and the housing of the disperser to be recognizable on the surface of the object or object, Which is connected by a line to at least one of the outlet of the hose 1, the outlet of the side line 1, the dispersing device,
3) The negative pressure material supply device 52 is composed of at least one of the hose 2 220, the hose control valve 2 221, the side line 2 222, the side line control valve 2 223 and the suction pipe 225 And,
The hose 2 (220) may be a tube or a passage, and may include at least one of transmitting a negative pressure material from a place where the negative pressure material is generated to the suction pipe, or supplying the negative pressure material directly from the place where the negative pressure material is generated to the object or the object and,
The inlet of the hose 2 is connected to the place where the negative pressure material is generated and the outlet is connected to one or more of the suction pipe, the object or the object,
The hose control valve 2 (221) is a valve for regulating the supply amount through the hose 2,
When the number of the hoses 2 is two or more, the hose control valve 2 is provided for the hose 2,
The side line 2 (222) is applied when a certain substance 2 other than the negative pressure substance is to be delivered or supplied,
The side line 2 is a pipe or a passage for delivering a certain substance 2 to a suction pipe, supplying a certain substance 2 directly to an object or a target site, connecting one of the substances 2 to the hose 2, Or more,
The inlet of the side line 2 is a place where a certain substance 2 is introduced and the outlet is connected to one of at least one of a suction pipe, an object or an object and a hose 2,
The constant material 2 injected into the hose 2 through the side line 2 is mixed with the negative pressure material in the hose 2 and is then delivered or supplied together with the negative pressure material,
The ratio of the negative pressure material and the constant material 2 mixed or transferred or supplied is 0 to 100% by weight or volume of each of the negative pressure material and the constant material 2 to be delivered or supplied, and the whole is 100%
The side line regulating valve 223 is a valve for regulating the amount of the supplied gas through the side line 2,
When the number of the side lines 2 is two or more, the side line control valve 2 is provided for each side line 2,
The constant material 2 224 is at least one of vacuum, vacuum fluid, vacuum water, vacuum air, vacuum pressure,
One end of the suction pipe 225 is connected to the hose 2 to supply a negative pressure material from the hose 2 and the other end is embedded or introduced into an object or a target object composed of at least one of liquid,
When at least one of the negative pressure material and the constant material 2 is supplied to one end of the suction pipe, at least one of the liquid phase, the vapor phase, and the solid phase constituting the object or the object is lifted into the suction pipe by a negative pressure of at least one of the negative pressure substance and the constant substance 2 Subsequently, the negative pressure of one or more of the negative pressure material and the constant material 2 is released to drop the negative pressure, and the supply and release of at least one of the negative pressure material and the constant material 2 is repeated to obtain a liquid, The above-mentioned rise and drop repeatedly,
Or one or more of the liquid, vapor, and solid phases constituting the object or target are raised and raised into the suction pipe by negative pressure of at least one of the negative pressure material and the constant material 2, And then,
When the suction pipe is omitted in the case of the electrons which repeatedly rise and fall, the hose 2 replaces the suction pipe,
4) The electrically compressed material supply device 53 is provided with: 1) at least one of electric wires and electrodes as electric supply devices; 2) a hose 1 as a compressed material supply device; a hose control valve 1; a side line 1; a side line control valve 1; , A distributor housing, and a disperser indicator, and the electric power is supplied to a certain point or a certain place of the object or the target place by 1) electric supply device and 2) Material supply,
5) The electrical negative pressure material supply device 54 includes at least one of electric wire and electrode which is an electric supply device, 3) a hose 2 as a negative pressure material supply device, a hose control valve 2, a side line 2, a side line control valve 2, A pipe or a certain portion of the object or subject, 1) supplying electric power by the electricity supply device and 3) supplying the negative pressure material by the negative pressure material supply device to another certain point or certain portion ,
6) The compressed negative pressure material supply device 55 comprises at least one of 2) a compressed material supply device, a hose 1, a hose control valve 1, a side line 1, a side line control valve 1, a dispersing device, a dispersing device housing, It is composed of at least one of material supply device, hose 2, hose control valve 2, side line 2, side line control valve 2 and suction pipe. 3) supplying the negative pressure material by the negative pressure material supply device,
The compressed material and the negative pressure material are classified into a low pressure, a medium pressure, and a high pressure,
The pressure to be transmitted or supplied through the hose 1 or the hose 2 is divided into a low pressure, a medium pressure, a high pressure, a pressureless pressure, a hydraulic pressure, a gravity pressure,
The pressure at which the constant substance 1 or the constant substance 2 becomes one of the delivery, supply and administration through the side line 1 and the side line 2 is classified into a low pressure, a medium pressure, a high pressure, a pressureless, a hydraulic pressure,
The low pressure is one of 1 × 10 ^{-100 to} 10 kg / cm ² , -1 × 10 ^-100 to ^-10 kg / cm ² , and 101 to 759 Torr,
And one of said intermediate pressure is ^{11~100kg / cm 2, -11~-100kg} / cm 2, 11~100Torr,
The high pressure is one of 101 to 1 x 10 ¹⁰⁰ kg / cm ² , -101 to -1 x 10 ¹⁰⁰ kg / cm ² , and 1 x 10 ^{-100 to} 10 Torr,
The pressure-free air is a pressure of 0 kg / cm ² ,
The hydraulic pressure is a pressure greater than 0 kg / cm ² ,
Wherein the gravity pressure is a gravity pressure,
The atmospheric pressure is the atmospheric pressure,
The other pressure is a pressure other than low pressure, medium pressure, high pressure, no pressure, hydraulic pressure, gravity pressure,
The size of the constant materials 1 and 2 is in the range of 1 * 10 ^{-1 to} 1 * 10 ^-2 m in centimeter size, 0.9 * 10 ^{-2 to} 1 * 10 ^-3 m in centimeter size, 0.9 * 10 ^{-3 to} 1 * ^10-6 m milli micron size, 0.9 * 10 ^-6 micro-nanometer size of ^{~1 * 10 -9 m, 0.9 *} 10 -9 ~1 * 10 -12 m nano picometers size of 0.9 * 10 ^It is one of the pico-femtometer sizes of ^{-12 to} 1 * 10 ^-15 m,
The size of the material to be supplied, ejected or injected through one of the above-mentioned plate, acid substrate, diffuser, nozzle, sprinkler and hole pipe is 1 × 10 ^{-1 to} 1 × 10 ^-2 m , A size of 0.9 * 10 ^{-2 to} 1 * 10 ^-3 m, a size of 0.9 * 10 ^{-3 to} 1 * 10 ^-6 m and a size of 0.9 * 10 ^{-6 to} 1 * 10 ^-9 m Nanometer size, a nanopicometer size of 0.9 * 10 ^{-9 to} 1 * 10 ^-12 m and a pico-femtometer size of 0.9 * 10 ^{-12 to} 1 * 10 ^-15 m,
Characterized in that each of the constituent elements constituting one or more of said at least one part is 0-100% by weight or volume and the whole is 100%.
9. The method according to any one of claims 1 to 8,
Mixing, circulating, convection, de-icing, injection, extraction, etc. of the object or object itself, or at least one of liquid, vapor and solid constituting the object or object, or contaminant present or contained in the object or object , In the treatment with at least one of extraction, injection, aerobic, anaerobic, cleaning, floatation, removal, heating, decomposition, flocculation, sedimentation,
The aeration is divided into an electric aeration, a compression aeration, a negative pressure aerator, a rotary bomber, a falling aerator,
In the electric aerator, electricity is supplied to the electrodes 201 and 201 of the anode and the cathode embedded in the object or the object, and water or H ₂ O in the liquid phase constituting the object or the object is electrolyzed and oxygen gas O ₂ ) and hydrogen gas (H ₂ ) are generated and oxygen gas and hydrogen gas bubbles rise in a liquid phase to aerate at least one of liquid, vapor and solid constituting the object or the object itself or the object or object,
The compressed air is supplied to at least one of a compression material and a certain material 1 to an object or a target so that at least one of the compression material and the specific material 1 is ejected or injected into the object or the target itself or the liquid, To augment one or more of the objects,
When the negative pressure aerator is supplied with one or more of the negative pressure material 2 and one or more constant substances 2 at one end of the hose 2 or the suction pipe, at least one of the liquid phase, gas phase, and solid phase constituting the object or the object is a negative pressure, And then lowering the negative pressure of at least one of the negative pressure material and the constant material 2 to drop the one that has risen and repeating the supply and release of at least one of the negative pressure material and the constant material 2, It is augmented by repeating rising and falling of at least one of the constituent liquid phase, gas phase and solid phase,
The rotary aircraft is a device for aerating and rotating at least one of a stirring blade, a wheel, a paddle wheel, an aberration, and a rotating body installed on a surface or inside of an object or a target using rotation force of the rotary body.
The drop aeration is performed by raising the contents between the double pipes of the double pipe pipe embedded in the object or the object using at least one of the compression material, the negative pressure material, and the water pump and then raising the contents to the inside or outside of the double pipe to aeration And,
Wherein the aeration unit floats while floating with at least one of the above-mentioned aeration, compression aeration, negative pressure aeration, rotary braking unit, and drop aeration installed in at least one floating body of vegetation,
The mixing may be performed by supplying at least one of electricity, compressed material, a certain substance 1, a negative pressure substance, and a certain substance 2 to the object or a subject or by supplying at least one of an electric aeration, a compression aeration, a negative pressure aerator, One or more of a liquid, a vapor and a solid constituting the object or the object itself or the object or the object are mixed with each other,
The circulation (300) is a method of supplying at least one of electricity, a compressed material, a certain substance 1, a negative pressure substance, and a certain substance 2 to an object or a subject, or by supplying an electric aeration, a compression aeration, a negative pressure aerator, , One or more of the liquid phase, the vapor phase, and the solid phase constituting the object or the object is circulated,
The convection is divided into electric convection and compression convection,
The electric convection may be carried out by installing or installing an electric heating line 202 at the bottom or bottom of an object or liquid crystal, vapor, or solid phase, and supplying electric power to the electric heating line, , One or more of the alcoves light up and up, and one or more of the relatively cool liquid,
The compression convection may be carried out by means of a relatively high temperature extrusion through at least one of the hose 1, the sideline 1, the disperser, which is embedded in, embedded in, or attached to the bottom or bottom of the object or object comprising at least one of liquid, One or more of the substances and certain substances 1 are supplied so that at least one of the liquid, vapor, and solid phases of the bottom or bottom is lightly raised, and at least one of the relatively cool liquid, vapor,
The above-mentioned ice making is divided into electric ice making, compressed ice making and negative pressure ice making,
In the electric ice making process, an electric heating line 202 is embedded or laid on an object or a target place composed of at least one of liquid, gas and solid, and the electric heating line is heated by supplying electric power to the electric heating line so that at least one of liquid, At least one of liquid, vapor, and solid phase does not freeze at 0 ° C or below, or dissolves at least one of liquid, vapor, and solid that has already frozen,
The compressed ice may be at least one of a hose 1, a side line 1, and a dispersing unit embedded in or laid on an object or a target comprising at least one of a liquid, a vapor, and a solid phase, Gaseous phase, and solid phase so that at least one of liquid phase, gas phase and solid phase is not frozen even in the winter season or below 0 ° C,
When at least one of the negative pressure material and the constant material 2 is supplied to one end of the suction pipe, at least one of the liquid phase, the vapor phase, and the solid phase constituting the object or the target is subjected to a negative pressure, And the negative pressure of at least one of the negative pressure material and the constant material 2 is released to drop the negative pressure material, and the supply and release of one or more of the negative pressure material and the constant material 2 are repeated to form a liquid, By circulating one or more of the solid phases, at least one of the liquid phase, the vapor phase, and the solid phase is not frozen even in the winter season or at temperatures below 0 ° C,
The injection is divided into electric injection and compression injection,
The electric injection may be performed by embedding an electrode 201 of a positive electrode and a negative electrode into an object or object made up of at least one of a liquid phase, a vapor phase, and a solid phase, injecting electricity into the object or target through the electrode, An electrophoresis phenomenon, an electrophoresis phenomenon, an electrophoresis phenomenon,
One application of the electrolysis phenomenon is to embed electrodes of an anode and a cathode in an object or a target object constituted by one or more of liquid, vapor and solid phases, and to inject electricity into the object or the object through the electrode to generate an electrolysis phenomenon, Leachate, or contaminant present in or contained in the electrolytic solution,
One application of the electroosmosis phenomenon is to embed electrodes of positive and negative electrodes in an object or a target object constituted of at least one of liquid, gas and solid phases, and to inject electricity into the object or the object through the electrode to generate electro- Leachate, or contaminant present in or contained in the cathode is discharged to the outside from the cathode by moving it in the direction of the cathode,
One application of the electro-migration phenomenon is to embed electrodes of positive and negative electrodes in an object or a target object constituted of at least one of liquid, vapor, and solid phases, and to inject electricity into the object or target through electrodes, The bipolar contaminant present or contained in the negative electrode is discharged to the outside from the negative electrode,
One application of the electroosmotic transfer phenomenon is to embed an anode and a cathode electrode in an object or a place composed of at least one of liquid, vapor, and solid phase, and to inject electricity into the object or object through the electrode, And at least one of a liquid phase, a leachate, a general pollutant, and a bipolar contaminant present in or contained in an object or a target object is discharged in the negative direction from the cathode,
In one application of the electroosmotic transfer phenomenon, in the case of washing or purifying the anode and the cathode with one or more of water, a microorganism, and a surfactant, one or more of water, a microorganism and a surfactant ), And at least one of water, microorganisms, and surfactant injected by the electroosmosis phenomenon is moved from the anode to the cathode so that the anode and the cathode are washed or purified by one or more of water, microorganism, and surfactant ,
One application of the electrophoresis is to embed the electrodes of the positive electrode and the negative electrode in an object or a target object constituted of at least one of liquid, vapor and solid, inject electricity into the object or the object through the electrode to generate electrophoresis, Is moved to the anode, or the bipolar solid phase is moved to the cathode to perform particle separation or particle sorting,
The compression injection may be performed by embedding or introducing at least one of a dispersing device, a pipe tube, and a non-pipe tube into an object or a target composed of at least one of liquid, vapor and solid phases and injecting at least one of the hose 1, side line 1 And one or more of the compressed substances and one or more substances selected from the at least one of the hose 1 and the side line 1 is injected into the object or target through at least one of the disperser,
One application of the compression injection is to insert or penetrate a perforated or non-perforated pipe into an object or object made of waste, and to compress or compress the compressed material through at least one of the hose 1, side line 1 connected to the pipe or non- The waste is aerated or stabilized by injecting at least one of air, a certain substance, air bubbles, oxygen, moisture, water, steam, mist, smoke, mist, fog,
Another application of the compression injection is to inject the dispersing device into a stream or a lake, which is an object or target site of water, and to discharge the compressed air from the compressed material through at least one of the hose 1 and the side line 1 connected to the dispersing device, It injects at least one of air bubbles, oxygen, pressure water, high pressure water, compressed air, and pressure air to aerate or aeration the river or lake,
The extraction may be performed by inserting or inserting at least one of a porous material, a gas phase, and a solid object into one or more objects or a target site, connecting at least one of the hose 2 and the side line 2 to at least one of the porous pipe and the non- 2, the side line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of the fluid tube and the void, One or more of a gas phase, a solid phase, a leachate, a polluted water, a pollutant, a gas, a bad smell, and an odor,
One application of the extraction is to embed or penetrate a porous or nonporous material into an object or object made of waste and to remove the negative pressure air from the negative pressure material through at least one of the hose 2 and the side line 2 connected to the conduit or non- , One or more of leachate, polluted water, pollutant, gas, odor, and smell of object or target site composed of waste from a pipe or non-porous pipe by supplying a double vacuum of a certain substance is extracted through at least one of a pipe and a non-
The extraction injection A hose 2, a side wall 2, a side wall 3, a side wall 3, a side wall 3, a side wall 3, a side wall 2, Line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through at least one of a pipe or a hollow pipe, and the liquid or vapor phase or solid phase present or contained in the object or object Extracts at least one of leachate, contaminated water, pollutant, gas, odor and odor, and re-injects at least one of the extracted extracts and one or more substances into another object or object through another of two or more porous pipes ,
When pressure is applied at the time of reloading and re-injection is desired, it is possible to add pressure to the extract,
The pressure is provided from at least one of a blower, a blower, a compressor, a pressure pump, a high pressure pump,
One application of the extraction injection is to embed or penetrate at least one of a porous material and a non-porous material into an object or object made of waste, connect at least one of the hose 2 and the side line 2 to at least one of the porous pipe and the non- Line 2, a negative pressure or vacuum of at least one of the two substances 2 is supplied to the object or the object through one or more of the pipe and the non-cavity so that the object or object contained in the waste or the contaminant, Extracting at least one of leachate, gas, odor and odor and extracting at least one of the extracted extract and a certain substance of bubbles, oxygen, moisture, water, steam, mist, smoke, mist, fog, smog, One or more of the premises may be re-injected into the object or target site to stabilize the waste prematurely, to stabilize the odor, or to stabilize the odor. It is to the,
The unit is divided into an electric unit and a compressed unit,
The electricity is supplied to the electrodes 201 and 201 of the anode and the cathode embedded in the object or the object, and water or H ₂ O in the liquid phase constituting the object or the object is electrolyzed and oxygen gas O ₂ ) and hydrogen gas (H ₂ ) are generated and at least one gas of oxygen or hydrogen is brought into contact with at least one of a liquid phase, a gas phase and a solid phase constituting the object or the object,
The compressed air may be supplied to the object or object made up of at least one of liquid, vapor, and solid phase through the hose 1 itself or by supplying compressed air among the compressed material through at least one of a disperser, a pipe, Oxygen or air is brought into contact with at least one of a liquid phase, a gas phase and a solid phase constituting the target site to make it aerobic,
The anaerobic tank may be supplied with a negative pressure or a vacuum in the negative pressure material through at least one of the hose 2 itself or a pipe connected to the hose 2 or the hollow pipe to an object or object made up of at least one of liquid, And the oxygen or air in the object or the object is reduced by anaerobic treatment by extracting the existing or contained gas phase,
The cleaning is divided into compression cleaning and negative pressure cleaning,
The compression cleaning may be performed by supplying compressed air from a compressed material through at least one of a hose 1 and a disperser to an object or a target composed of at least one of liquid, vapor, and solid phases to remove foreign matter, dust, , To send away one or more of the garbage to clean,
The negative pressure cleaning may be performed by supplying a vacuum of a negative pressure material through at least one of a hose 2 and a suction pipe to an object made up of at least one of a liquid phase, a gas phase and a solid phase or a hose 2 or a suction pipe, , One or more of the garbage is sucked through at least one of the hose 2 and the suction pipe,
The float is divided into electrophoresis, compression float, and negative pressure float,
In the electrophoresis, the generated electricity is supplied to the electrodes of the anode and the cathode, which are embedded in the object or the object, so that water or water (H ₂ O) in the liquid constituting the object or the object is electrolyzed and oxygen ₂ ) and hydrogen gas (H ₂ ) are generated and raised at least one of sediments, sediments, foreign matter, pollutants, dust, lightweight water, and garbage that exist or are present or contained in the object or subject by the floating gas of oxygen gas and hydrogen gas bubbles And,
The compression lifting may be performed by supplying compressed air among the compressed material through at least one of a dispersing device, a pipe tube, and a non-hollow pipe connected to the object or the object made of at least one of liquid, Sediment, foreign matter, dust, lightweight water or trash which is present or contained in the object or the object by the lifting force of the float,
The negative pressure levitation may be performed by supplying a vacuum in the negative pressure material through the hose 2 itself or a suction pipe connected to the hose 2 to an object or a target composed of one or more of liquid, Or one or more of the contained sediments, sediments, foreign matter, dust, light water, garbage,
The removal is divided into pollution removal, sediment removal, suspension removal, algae removal, red tide removal, and green tide removal,
The contamination removal is divided into an electric sterilization removal, an aerobic decomposition removal and a negative pressure removal,
The electrical disinfection can be divided into chlorination, hypochlorous acid and ferrate sterilization,
The chlorine disinfection is carried out by supplying saline to the object or the object, or by supplying the object or object to the object by itself or through the sideline 1, and the salt contained or contained in the object or the object by the supplied electricity is converted into chlorine and sodium A disinfecting substance containing a chlorine component (Cl ₂ ) is produced by disintegrating to remove the object itself or the object or the contaminants present therein or contained therein with chlorine,
The sterilization of hypochlorous acid is carried out by supplying sodium hydroxide (NaOH), which is one of the certain substances 1, to the object or the object to which the object or the object is added by itself or through the sideline 1, (ClO) is generated to sterilize and remove the object or the object itself or contaminants present or contained therein with hypochlorous acid,
In the ferrate sterilization, when electricity is supplied to the positive electrode and the negative electrode under the condition that the iron electrode is used as the positive electrode, the iron component (Fe) is eluted from the iron electrode of the positive electrode to generate iron hydroxide (Fe (OH) ₃ ) (FeO ₄ ) ^2- ) is generated by reacting the ferric chloride and hypochlorous acid (ClO) to sterilize and remove ferrate the object or the object itself or contaminants present therein or contained therein,
The aerobic decomposition and removal is aerated by the air contained in at least one of the supplied compressed substances, one of the predetermined substances 1, so that the object or the object itself or organic contaminants present therein or contained therein are decomposed and removed,
The negative pressure removal is to remove contaminants by the negative pressure of at least one of the supplied negative pressure substance and the constant substance 2. When at least one of the negative pressure substance and the constant substance 2 is supplied to one end of the suction pipe, , One or more of the solid phases are raised or lifted into the suction pipe by negative pressure of at least one of the negative pressure substance and the fixed substance 2 to directly remove or discharge the contaminants to the outside,
The sediment removal is performed by removing at least one of the compressed material 1 and the fixed material 1 from the bottom or the bottom of the object or target so that the sediment or sediment deposited on the bottom or bottom of the object or the target is floated, A suction pipe is provided at one end of the suction pipe, at least one of the negative pressure material and the constant material 2, and the sediment constituting the object or the object is lifted into the suction pipe by the negative pressure of at least one of the negative pressure material and the certain material 2, Or removed by discharging it to the outside,
In the removal of the float, at least one of the compressed material and the predetermined material 1 is supplied to the object or the object so that at least one of the combustible material, the foreign matter and the lightweight object is floated and then directly removed, or the suction or the suction At least one of the negative pressure material and the fixed material 2 is supplied to one end of the pipe, and at least one of the liquid phase, gas phase and solid phase constituting the object or the object is lifted into the suction pipe by the negative pressure of at least one of the negative pressure substance and the constant substance 2, One or more of flammable substances, foreign matters, and lightweight materials may be directly removed or discharged to the outside,
The above-mentioned algae removal, red tide removal, and rust trough removal can be performed by supplying at least one of electricity, compressed material, and certain substance 1 to a target or a target area and exposing the green tide, red tide, and green tide present therein to aerobic, aerobic, sterilization, Or at least one of a compressed material, an externally supplied washing water, a high pressure water, a pressure water and a nozzle water may be removed from the soil by using at least one of a loess material, a water body, a glue body, , A slag, 5 to 99 parts by weight of loess, 5 to 99 parts by weight of slag, a certain material composed of at least one of activated charcoal, charcoal, charcoal, zeolite and a surfactant to spray a certain substance on a subject or subject, The green tide, the red tide, and the green tide present or contained in the site are removed by one or more of adsorption, flocculation, sedimentation,
The heating is divided into electric heating, hot air heating and hot water heating,
The electric heating is carried out by heating the supplied electric power, and the electric heating line is heated by the electric power supplied from the electric wire or embedded into the object or the object composed of at least one of liquid, vapor and solid, One or more of a liquid phase, a gas phase, and a solid phase constituting the object or the object is heated,
When the temperature of the compressed air is relatively higher than the temperature of the object or the object, the heated air is heated by the compressed air having a high temperature, and the object or the object itself, or the liquid, vapor, One or more of which is heated,
The hot water heating may be performed in the form of a liquid, a vapor or a solid phase constituting the object or the object itself or the object or the object by the compressed water having a high temperature when the temperature of the compressed water is relatively higher than the temperature of the object or the object. One or more of which is heated,
The decomposition is divided into electrolysis, aerobic decomposition and anaerobic decomposition,
The electrolysis may be performed by inserting electrodes of positive and negative electrodes into an object or object made up of at least one of liquid, vapor, and solid and supplying electricity to the positive and negative electrodes to generate liquid, vapor, solid, , ≪ / RTI >
One application of the electrolysis is to decompose the liquid phase (H ₂ O) present or contained in the object or the object to oxygen gas (O ₂ ) and hydrogen gas (H ₂ ), the substance present or contained in the object or object The salinity is decomposed into chlorine (Cl) and sodium (Na), and the bipolar (+), heavy metal (+), and negative polarity (- (-) and (+) poles,
The aerobic disassembly can be carried out by supplying compressed air from the compressed material through the hose 1 itself or one or more of the disperser, the pipe tube, and the hollow tube connected to the hose 1 to an object or object made up of at least one of liquid, The organic matter present in the object or the object is decomposed relatively quickly rather than anaerobic decomposition,
The anaerobic decomposition may be performed by supplying a negative pressure or a vacuum in the negative pressure material through at least one of the hose 2 itself to the object or the object made up of at least one of liquid, And the oxygen or air in the object or the object is reduced to anaerobic to decompose the organic matter present in the object or the object relatively slowly rather than in aerobic decomposition,
The coagulation is classified into electrocoagulation and compression coagulation,
In the electrocoagulation, an anode and an anode embedded in an object or a target are used as an iron electrode, electricity is supplied to the cathode and the anode, the iron electrode is eluted by electrolysis to become iron ion (Fe ^{2 +} ), Is to be aggregated with an iron compound in combination with a contaminant present or contained in the object or object,
One application of the electro-coagulation is an iron electrode is eluted by electrolysis by supplying electricity to the cathode and the anode using the anode as an iron electrode, a negative electrode and the positive electrode Among embedded in the object or destination, and the iron ion (Fe ^{2 +)} Iron ion is purified by removing phosphorus present or contained in the object or the object or aggregated with iron phosphate (FePO ₄ ) in association with phosphorus (PO ₄ ^- ) which is present or contained in the object or contaminant contained in the object,
The precipitation is such that the electrocoagulated or press agglomerated agglomerates settle or settle to the bottom or bottom of the object or subject,
The purification may purify the object or the target itself by at least one of aeration, mixing, circulation, convection, deicing, injection, extraction, extraction injection, exhalation, anaerobic cleaning, floatation, removal, heating, , Or purifying at least one of liquid, vapor and solid constituting the object or the object, or purifying contaminants present in or contained in the object or the object,
Wherein at least one of said at least one constituent is constituted by 0-100% by weight or by volume or by pressure and by 100% by total constituent constituting at least one said apparatus
13. The method according to any one of claims 1 to 12,
In the object or the object which is composed of at least one of the liquid, vapor and solid phases,
The object may be one of: 1) a liquid, a vapor, a solid, a liquid, a liquid, a liquid, a solid,
Or 2) wastewater, sewage, sewage, stormwater, leachate, contaminated water, contaminated groundwater, contaminated river water, reservoir water, settling tank water, reaction tide, bioreactor tide, flocculation tide, settling tank, settling tide, At least one of anaerobic water, ground water, river water, river water, pond water, pond water, river water,
3) At least one of waste air, waste gas, tunnel air,
4) At least one of the following substances: one or more of calcium, magnesium, potassium and sodium, waste, construction waste, industrial waste, municipal waste, contaminated soil, contaminated soil, contaminated soil, 2), 3), 4)
Each of the constituent elements constituting at least one of said at least one member is 0-100% by weight or volume or pressure and 100%
Each of the components constituting the mixing in the mixing is 0 to 100% by weight or volume or pressure, 100%
The target site may be one of a liquid, a weather, a superstructure, a liquid body, a top, a top, a top, or a repair facility, a repair space, an environmental facility,
The above-mentioned repair facilities include dams, banks, estuaries, underwater boats, water gates, river boats, movable boats, water gates, boats, waterways, waterways, waterways, tunnel waterways, waterways, watertight water circulation facilities, water tanks, , A water tank, a flow rate adjusting tank, a manhole, a water reservoir, and a water box,
The above-mentioned repair space can be divided into a coast, a sea, a sea, a river, a river, a river, a stream, a stream, a city, a waterway, a bath, a hot spring, a steam room, a swimming pool, a farm, a fish farm, Mooring ground, and lakes,
The environmental facilities include a wastewater tank, a wastewater box, a sewage box, a liquid tank, a sewage tank, a sewage tank, an excellent tank, a purified water tank, a leachate tank, an inflow tank, a storage tank, a reservoir tank, The present invention relates to a method and apparatus for disinfecting and disinfecting waste water in a sewage disposal plant such as sewage treatment plant, Waste landfill site, waste landfill site, mine site, contaminated site, gas injection site, gas extraction site, gas capture site, leachate collection pipe, leachate site, sanitary landfill site, unsanitary landfill site, illegal landfill site, excavated landfill site, It is one of the injection wells, the leachate extraction wells, the leaching collection correction, the leaching,
The environmental space may include at least one of a sewage tank, a wastewater storage tank, a sewage tank, a stormwater storage tank, a water storage tank, a water storage tank, a water storage tank, a leachate storage tank, a non-point polluted water storage tank, a riverside filtration water storage tank, a groundwater storage tank, a seawater storage tank, Is characterized in that it is one of a purification plant, a waste landfill, a sewage treatment plant, a wastewater treatment plant, a sewage treatment plant, a storm sewage treatment plant, a water treatment plant, a water treatment plant, a water treatment plant, a leachate treatment plant, Equipment for the generation, supply and utilization of green electricity and green materials
10. The method according to any one of claims 3 to 9,
The passage, the rotor passage, the diaphragm passage, the venturi, the rotary venturi or the diaphragm venturi may be replaced by one or more of the following:
The orifices, rotor orifices, diaphragm orifices,
By extension, by rotor extension, by diaphragm expansion,
Wire line, rotating wire line, diaphragm wire line,
Freedom, Rotor Freedom, Diaphragm Freedom,
≪ / RTI >
The orifice of the orifice, the rotating body orifice, and the diaphragm orifice is a flow path through which a fluid formed by perforating the opening of the blade is flowed out. The rotating body orifice is a flow path provided with at least one of the middle, outlet and outlet guides of the orifice , The diaphragm orifice is a flow path provided with diaphragm in at least one of a middle portion and an outlet portion inside the orifice,
Wherein the expansion path is a flow path whose cross-sectional area is larger than that immediately before the expansion path, the expansion path, the rotor expansion path, and the diaphragm expansion path, And the diaphragm expansion passage is a diaphragm provided at one or more of the middle and the outlet in the expansion passage,
In the wired path, the rotating body wired path, and the diaphragm wired path, a material is flowed or flowed in a streamlined manner in the wired path, and a rotating body is installed in at least one of the middle, exit and outlet guides of the wired path And the diaphragm conduit is a conduit provided with diaphragm at one or more of the middle and the outlet of the inside of the conduit,
Wherein the rotor is a flow path having a free shape in which the material flows freely through the free path, the rotor free path, and the diaphragm free path, and the rotor free path is a path having a rotating body installed in at least one of the middle, , And a diaphragm-free flow path is a flow path provided with diaphragm at one or more of the middle and the outlet of the inside of the free flow path.

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