CN212799852U - High-concentration organic wastewater treatment device - Google Patents

Abstract

The utility model relates to a high concentration organic wastewater treatment device, its characterized in that: the high-concentration organic wastewater treatment device comprises a tank body for containing high-concentration organic wastewater and a first water pump arranged in the tank body, wherein a first tank container and a second tank container are arranged outside the tank body, the water outlet end of the first water pump is connected with the water inlet end of the first tank container after being connected with a first micro-bubble ejector, the water outlet end of the first tank container leads to the tank body, a branch pipeline with a switch valve is connected beside the water inlet end of the first tank container, the branch pipeline is connected with the water inlet end of the second tank container, the outlet at the lower part of the second tank container is connected with the second water pump and the second micro-bubble ejector in sequence and then is connected with the inlet at the lower part of the second tank container, and the bottom of the second tank container is provided with a water outlet; the high-concentration organic wastewater treatment device has the advantages of simple structure and reasonable design, and is favorable for improving the wastewater treatment effect and efficiency.

Description

High-concentration organic wastewater treatment device

The technical field is as follows:

the utility model relates to a high concentration organic wastewater treatment device.

Background art:

at present, biochemical treatment technology is mainly used for treating high-concentration organic wastewater, a regulating tank, a hydrolysis acidification tank, an aeration tank, a sedimentation tank and the like are arranged in a treatment process, the occupied area is large, the treatment period is mostly 5 days to 15 days, namely 10 tons of sewage are discharged in a treatment day, and the bath capacity of various tanks needs to be more than 50m to 150m for carrying out thin film planting; the movement of sewage among the tanks is mostly realized by a lift pump, aeration needs a high-power blower and the like to work for a long time, and the aeration is also the place which consumes the most energy in the traditional biochemical process; therefore, the existing high-concentration organic wastewater treatment has large occupied area, long treatment period and large energy consumption.

The invention content is as follows:

in view of the deficiency of the prior art, the utility model aims to solve the technical problem that a high concentration organic wastewater treatment device is provided, this high concentration organic wastewater treatment device simple structure, reasonable in design are favorable to improving waste water treatment efficiency and reducing equipment occupation of land space.

The utility model discloses high concentration organic wastewater treatment device, its characterized in that: the device comprises a tank body for containing high-concentration organic wastewater and a first water pump arranged in the tank body, wherein a first tank container and a second tank container are arranged outside the tank body, the water outlet end of the first water pump is connected with the water inlet end of the first tank container after being connected with a first micro-bubble ejector, the water outlet end of the first tank container leads to the tank body, a branch pipeline with a switch valve is connected beside the water inlet end of the first tank container, the branch pipeline is connected with the water inlet end of the second tank container, the outlet at the lower part of the second tank container is connected with the second water pump and the second micro-bubble ejector in sequence and then is connected with the inlet at the lower part of the second tank container, and the bottom of the second tank container is provided with a water outlet.

Further, above-mentioned microbubble ejector includes that one end is the body that water inlet, one end are microbubble water output, be equipped with at least a set of water guide piece on the body internal perisporium, the water guide piece of every group includes two at least lugs along the circumference equipartition in same cross-section, all is equipped with on every lug so that the rivers through this lug advance by the straight line and become the water guide surface that the spiral was advanced, is equipped with the gas passing hole on the body, gas passing hole and air intercommunication.

Furthermore, the water guide surface is an inclined surface, an included angle of 5-85 degrees is formed between the water guide surface and the axis of the pipe body, and the inclined surfaces on the adjacent lugs form different or same included angles with the axis of the pipe body.

Furthermore, two to five lugs are uniformly distributed in the same section along the circumference, and the section is a section vertical to the axis of the tube body.

Furthermore, a through hole perpendicular to the axis of the pipe body is formed in the pipe body, a cylinder block is fixed in the through hole, the convex block is a part of the cylinder block protruding out of the inner peripheral wall of the pipe body, and a guide circular bead is arranged between the cylinder block and the water guide surface.

Furthermore, two groups of water guide blocks are arranged in the pipe body along the axial direction of the pipe body, and the air passing hole is positioned between the two groups of water guide blocks.

Furthermore, a plurality of air passing holes are uniformly distributed on the circumference of the same section of the pipe body along the axis vertical to the pipe body, and the central lines of the air passing holes are vertical to or tangent to the inner peripheral wall of the pipe body, or the air passing holes are spiral; or the air passing hole forms an included angle with the axis of the pipe body.

Further, the peripheral cover of above-mentioned body is equipped with the outer tube, the outer tube both ends are for the confined with the body periphery wall, be equipped with the trachea mouth of pipe on the outer tube, form the negative pressure cavity between outer tube internal perisporium and the body periphery wall, cross gas pocket and negative pressure cavity intercommunication.

Furthermore, the pipe body is three sections, namely a first section, a second section and a third section, the pipe diameters of the first section and the third section are the same and are larger than the pipe diameter of the second section, two ends of the second section are in threaded connection with the first section and the third section respectively, the water guide block and the air passing hole are arranged on the first section and the third section respectively, and two end portions of the outer sleeve are in threaded connection with the first section and the third section.

Furthermore, the first tank body container and the second tank body container are hollow tank bodies, and light spheres which are favorable for stirring water bodies are arranged in the first tank body container and the second tank body container.

Furthermore, the volume of the tank body is 5 cubic meters, a concave tank body is formed by digging on the ground, and the volumes of the first tank body container and the second tank body container are respectively 3 cubic meters and 15-20 cubic meters and are arranged above the ground.

Further, an ozone machine is connected in series with a pipeline through which the air passing hole of the first micro-bubble jet device is communicated with air.

The utility model discloses use high concentration organic wastewater processing apparatus to carry out high concentration organic wastewater's method, its characterized in that: the high-concentration organic wastewater treatment device comprises a tank body for containing high-concentration organic wastewater and a first water pump arranged in the tank body, wherein a first tank container and a second tank container are arranged outside the tank body, the water outlet end of the first water pump is connected with the water inlet end of the first tank container after being connected with a first micro-bubble ejector, the water outlet end of the first tank container leads to the tank body, a branch pipeline with a switch valve is connected beside the water inlet end of the first tank container, the branch pipeline is connected with the water inlet end of the second tank container, the outlet at the lower part of the second tank container is connected with the second water pump and the second micro-bubble ejector in sequence and then is connected with the inlet at the lower part of the second tank container, and the bottom of the second tank container is provided with a water outlet; during operation, high concentration organic waste water imports the cell body in, after filling with, start first water pump, second water pump work, waste water gets into first jar of body container after first microbubble ejector is once handled, partial branch is carried to second jar of body container simultaneously, water after once handling flows back to the cell body through first jar of body container in, at the water that gets into second jar of body container, export from second jar of body container lower part is through second water pump and second microbubble ejector in proper order, water gets into the entry of second jar of body container lower part after the secondary treatment of second microbubble ejector, realize the circulation of second jar of body container internal water and handle, discharge from the bottom outlet of second jar of body container after handling.

The utility model discloses high concentration organic wastewater treatment device simple structure, reasonable in design through the work of first, second microbubble ejector, are favorable to making to produce micro-nano bubble in the waste water, and the air more of portability improves waste water treatment's effect, has increased the kinetic energy that the water flows simultaneously, is favorable to improving the efficiency of administering waste water.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Description of the drawings:

fig. 1 is a sectional view of an embodiment of the micro bubble ejector of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1 at the bump;

fig. 3 is a cross-sectional view of an embodiment of the micro bubble ejector of the present invention;

fig. 4 is a cross-sectional view of an embodiment of the micro bubble ejector of the present invention;

FIG. 5 is a cross-sectional view of FIG. 4 at the bump;

fig. 6 is a cross-sectional view of an embodiment of the micro bubble ejector of the present invention;

FIG. 7 is a front view of the cylinder block;

FIG. 8 is a side view of FIG. 7;

fig. 9 is a cross-sectional view of another embodiment of the micro bubble ejector of the present invention;

fig. 10 is a sectional view of another embodiment of the microbubble ejector according to the present invention.

FIGS. 11-14 are cross-sectional views of different shapes of air holes provided in the tube body;

FIG. 15 is a cross-sectional view of FIG. 1;

FIG. 16 is a partial view of FIG. 15;

fig. 17 is a working schematic diagram of the present invention;

fig. 18 and 19 are partial views of fig. 17.

The specific implementation mode is as follows:

in order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

The utility model discloses high concentration organic wastewater treatment device is including cell body B1 that is used for holding high concentration organic wastewater and the first water pump B2 of establishing in the cell body, cell body B1 is provided with first jar of body container B3 and second jar of body container B4 outward, the end of intaking of first jar of body container B3 is connected behind first microbubble ejector B5 to first water pump B2's the play water end, the play water end of first jar of body container B3 leads to cell body B1, the other branch pipeline B7 who connects branch pipe B68525 that has ooff valve B6 of the end of intaking of first jar of body container, branch pipe B7 connects the end of intaking of second jar of body container B4, export B10 of second jar of body container lower part connects gradually second water pump B8 and second microbubble ejector B9 back connection second jar of body container B11 of lower part, the bottom of second jar of body container is equipped with outlet B12.

High-concentration organic wastewater is input into a tank body B1, after the tank body is filled with the high-concentration organic wastewater, a first water pump B2 and a second water pump B8 are started to work, the wastewater enters a first tank body container B3 after being treated by a first micro-bubble jet device B5 for a time, meanwhile, part of the wastewater is branched and conveyed to a second tank body container B4, the water after being treated for the time flows back into a tank body B1 through the first tank body container, the water entering a second tank body container B4 sequentially passes through a second water pump B8 and a second micro-bubble jet device B9 from an outlet at the lower part of the second tank body container B4, the water enters an inlet at the lower part of the second tank body container after being treated for a second time, the water in the second tank body container is circularly treated, the water is discharged from a water outlet B12 at the bottom of the second tank body container after the treatment (a valve is arranged on a water discharge pipeline), the tank body B1 can be formed by grooving on the ground, The first tank container can be called as an oxidation tank, and the second tank container can be an existing fluidized bed bioreactor, or spherical, annular or square fluidized bed filler can be placed in the tank.

The microbubble ejector includes that one end is water inlet 1, one end is body 3 of microbubble water output 2, be equipped with at least a set of water guide piece 4 on the internal perisporium of body 3, and the water guide piece of every group includes along two at least lugs 5 of circumference equipartition in same cross-section, can be 2-5 lugs, and this lug can be made with body an organic whole or inlay after independently making and establish and fix on the body, all is equipped with on every lug 5 so that the rivers through this lug advance by the straight line and become the water guide face 6 that the spiral was advanced, is equipped with air passing hole 7 on the body, air passing hole 7 and air intercommunication should be one or more through air hole 7.

The air vent 7 can be far from the bump or can be arranged at the side part close to the bump.

So use two jar bodies and with first in this application, can realize efficient waste water treatment after the connection of second microbubble ejector, because waste water is in the first end admission pipe of body 3, the air is in from the gas pocket admission pipe, water is in the admission pipe internal back, when not reacing water guide block 4, rivers are straight line marching, after receiving the guide of water guide surface 6 on the lug, straight line rivers become the rivers that the spiral was marchd promptly, this rivers that the spiral was marchd form micro-nano bubble with the air mixture through gas pocket 7 admission pipe internal, these micro-nano bubbles not only make the bubble can reach micro-nano, and can carry more oxygen, thereby be favorable to improving the oxidation treatment of waste water, and the treatment effeciency has been improved, and hydrodynamic ability is great from micro-bubble water output 2 output, the jar body container of stirring that can be fine, realize more efficient processing.

In one embodiment, the water guide surface is an inclined surface, and forms an included angle of 5-85 degrees with the axis of the pipe body, the inclined surfaces on adjacent lugs form different or same included angles with the axis of the pipe body, when three lugs 5 are uniformly distributed along the circumference in the same cross section, the inclined water guide surface forms an included angle of 40-65 degrees, preferably 60 degrees with the axis, and when four lugs 5 are uniformly distributed along the circumference in the same cross section, the inclined water guide surface forms an included angle of 40-52 degrees, preferably 42 degrees with the axis; the water guide surface can be an arc surface, a curved surface and the like, and after the linear water flow passes through the water guide inclined surface, the water body in contact with the water guide inclined surface generates a spiral and drives the water body inside to generate a spiral in the continuous process.

In an embodiment, two to five projections 5 are uniformly distributed on the same cross section along the circumference, and the cross section is a cross section perpendicular to the axis of the tube body, in an actual test, each projection 5 is not in the same cross section, but the effect is poorer than that of the projections in the same cross section, and the projection 5 in the same cross section means that the central axis of the projection falls on the cross section perpendicular to the axis of the tube body.

In one embodiment, the tube 3 is provided with a through hole 9 perpendicular to the axis of the tube, a cylinder block 10 is fixed in the through hole, the protrusion 5 is a portion of the cylinder block 10 protruding out of the inner peripheral wall of the tube, a fillet 11 is arranged between the cylinder block 10 and the water guide surface 6, the cylinder block 10 can be a cylindrical block or a square column, the water guide surface 6 and the fillet 11 are cut from the cylinder block 10, the through hole 9 is arranged perpendicular to the axis of the tube and the fixing column 10 is arranged in the through hole to facilitate processing, when the tube and the protrusion are made of metal materials, the tube and the protrusion can be manufactured by a multi-axis linked CNC processing machine tool, and the tube and the protrusion can be processed by a common lathe and a milling machine, so that the manufacturing cost is low, in this embodiment, the air vent 7 can be a space for arranging an air vent in the through hole 9, that the cross section of the cylinder block 10 in the through hole 9 is smaller than the through hole 9, so that a water passing hole is formed therein.

The centre bore K of this application body (the middle part is the passageway of cylinder shape except the big taper mouth of water inlet 1, output 2) is tubaeform (is the toper) from water inlet 1 to output 2 side, and the tapering of this cylinder shape passageway is at 0.5-3 degrees.

In a preferred embodiment, two groups of water guide blocks 4 are arranged in the pipe body along the axial direction of the pipe body, the air passing holes are positioned between the two groups of water guide blocks, the air passing holes are provided with a plurality of air passing holes, and every several circumferences are uniformly distributed in the same section vertical to the axial direction of the pipe body; the central line of the air passing hole is vertical to or tangent to the inner peripheral wall of the pipe body, or the air passing hole is spiral; or the air passing holes form an included angle with the axis of the pipe body, the central line of the air passing holes is preferably tangent to the inner peripheral wall of the pipe body, and the included angle is formed between the air passing holes and the axis of the pipe body; the spiral air passing hole cannot be realized by machining, a spiral metal pipe can be embedded into a large hole which is arranged on the pipe body in advance, and a coagulant is embedded between the spiral metal pipe and the large hole.

In a preferred embodiment, the outer sleeve 12 is sleeved on the periphery of the tube 3, two ends of the outer sleeve 12 and the outer circumferential wall of the tube 3 are closed (the two ends are closed and can be welded and fixed by metal sheets), the outer sleeve 12 is provided with a tube opening 13, when the device is applied to deep water bottom, an extension tube 8 (which can be a plastic tube) needs to be connected to the tube opening 13, so that the input end of the extension tube 8 is higher than the water surface, and when the device is directly used in outdoor space, the extension tube does not need to be connected, but a dust cover can be covered on the tube opening 13, the extension tube is not needed in the application, a negative pressure cavity 14 is formed between the inner circumferential wall of the outer sleeve and the outer circumferential wall of the tube, the air passing hole 7 is communicated with the negative pressure cavity 14, the outer sleeve 12 is provided with the negative pressure cavity 14, and only one tube opening 13 needs to, after the air pipe orifice 13 is communicated with air, the air enters the negative pressure cavity 14 through the air pipe orifice 13, then enters the pipe body 3 through the air passing holes 7 respectively, so that micro-nano bubble water is output at the second end of the pipe body 3, and better micro-nano bubble water is generated through the embodiment; when the air-permeable cover is used in an outdoor space (the application) the outer sleeve 12 is not needed, because the air-permeable holes 7 can be directly communicated with air.

After the first end of the pipe body is connected with the water pump, the first end of the water enters the pipe body, negative pressure is generated in the inner hole of the pipe body, the air passing hole 7 and the negative pressure cavity 14, and therefore air can be sucked into the inner hole of the pipe body.

The first and second tank containers are hollow, and light spheres which are favorable for stirring water bodies are arranged in the first and second tank containers, and can be plastic spheres, foam spheres, ceramic granules or metal thin shell spheres and the like.

The volume of the tank body is 5 cubic meters, the tank body is a concave tank body formed by digging on the ground, and the volumes of the first tank body container and the second tank body container are respectively 3 cubic meters and 15-20 cubic meters and are arranged above the ground.

In order to further improve the treatment effect, an ozone generator B13 may be connected in series to the pipeline connecting the air passing hole of the first microbubble ejector and the air.

Further, for reasonable design, the tube body 3 is three segments, namely a first segment 15, a second segment 16 and a third segment 17, the first segment 15 and the third segment 17 have the same tube diameter, and is larger than the second section 16, two ends of the second section 16 are respectively in threaded connection with the first section 15 and the third section 17, the water guide block and the air passing hole are respectively arranged on the first section and the third section, two ends of the outer sleeve are in threaded connection with the first section and the third section, the inner peripheral wall diameter of the second segment 16 can be the same as or different from the inner peripheral walls of the first segment 15 and the third segment 17, and the inner peripheral wall of the second segment 16 is provided with at least one concave ring 17, the concave ring 17 is provided to facilitate the swirling of the water flow, and for the convenience of processing, the first segment 15 and the third segment 17 can be shared by the same shape and structure, and the second segment 16 is a pipe rod with two ends screwed with the ends of the first segment 15 and the third segment 17.

The inner holes of the water inlet 1 end (the first end of the pipe body) and the micro-bubble water output end 2 (the second end of the pipe body) of the pipe body 3 can be horn mouths, and the pipe body, the convex block, the cylindrical block and the like can be made of metal materials or plastic materials.

The working method of the high-concentration organic wastewater treatment device of the utility model comprises a tank body B1 for containing high-concentration organic wastewater and a first water pump B2 arranged in the tank body, a first tank container B3 and a second tank container B4 are arranged outside the tank body B1, the water outlet end of the first water pump B2 is connected with the water inlet end of the first tank container B3 after being connected with the first micro-bubble jet device B5, the water outlet end of the first tank container B3 leads to a tank body B1, a branch pipeline B7 with a switch valve B6 is connected by the water inlet end of the first tank container, the branch pipeline B7 is connected with the water inlet end of a second tank container B4, an outlet B10 at the lower part of the second tank container is connected with a second water pump B8 and a second microbubble ejector B9 in sequence and then is connected with an inlet B11 at the lower part of the second tank container, and the bottom of the second tank container is provided with a water outlet B12; during operation, high concentration organic waste water imports the cell body in, after filling with, start first water pump, second water pump work, waste water gets into first jar of body container after first microbubble ejector is once handled, partial branch is carried to second jar of body container simultaneously, water after once handling flows back to the cell body through first jar of body container in, at the water that gets into second jar of body container, export from second jar of body container lower part is through second water pump and second microbubble ejector in proper order, water gets into the entry of second jar of body container lower part after the secondary treatment of second microbubble ejector, realize the circulation of second jar of body container internal water and handle, discharge from the bottom outlet of second jar of body container after handling.

The pipe body 3 is three segments, namely a first segment 15, a second segment 16 and a third segment 17, the pipe diameters of the first segment 15 and the third segment 17 are the same and are larger than those of the second segment 16, two ends of the second segment 16 are respectively in threaded connection with the first segment 15 and the third segment 17, a water guide block and an air through hole are respectively arranged on the first segment and the third segment, and two end parts of the outer sleeve are in threaded connection with the first segment and the third segment; after water enters the pipe body and is guided by the water guide surface of the first section of water guide block, spiral water flow is formed, and meanwhile, the water flow is mixed with air entering the pipe body to form micro-nano bubbles; and then, after the water is guided by the water guide surface of the third section of water guide block, more spiral water flow is formed, and more abundant micro-nano bubbles are formed.

The tube 3 having three segments is merely an example, and is an embodiment convenient for manufacturing, and it is not necessary to adopt the solution, and the tube may be two segments, four segments, etc.

The microbubble jet device mainly completes the following things which are often required to be completed by a plurality of devices and procedures together and with high efficiency, and can realize that:

1. a large amount of micro-nano bubbles are generated;

2. jetting large water quantity to drive the water body to form water flow;

3. the high-pressure jet foaming generates 1-4kgf/cm of pressure, the microbubbles are ionized while foaming (a flocculation function of adsorbing suspended matters in water is generated), hydroxyl radicals generated by the pressure breaking cavitation effect of the microbubbles can decompose and degrade pollutants, and meanwhile, the impact of water flow subjected to high-pressure rapid rotary cutting can ionize and degrade sewage (sucked and sprayed water) and degrade polluted water biological cells such as blue algae and the like.

The oxygen content of the water body can be increased to one cube per hour by a micro-bubble generating device adopted by the existing sewage treatment, and the oxygen content can reach 10-20 cubes per hour; when handling equivalent sewage, the equipment that adopts the flocculation and precipitation technique now not only need occupy bigger equipment volume, also need occupy bigger container or the cell body of saving sewage, increases the cycle and the cost of construction.

In a specific field treatment example, high-concentration organic sewage in a food plant is discharged at 50t/d, the total 25m of tanks (a first tank container B3 and a second tank container B4) are planted, 20g/h of ozone generated by an ozone generator is mixed and added at the front end (B13), and the following detection tables of different water quality parameters of a sewage inlet end and a water outlet end are shown as follows:

(Mg/L)	COD Mn	BOD	SS	animal oil
					Inflow water	270	480	560	190
Discharging water	42	58	67	7

Therefore, the application has the remarkable characteristics that: 1. the processing capacity is large and is 3-5 times of that of the common biochemical method, the sludge amount is 2, the sludge amount is less than 1/4 of the common biochemical method (activated sludge method), 3, the occupied area is small, the arrangement is convenient, and only the area below 1/3 of the common biochemical method is needed, and the main device tank body can be arranged.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims (10)

1. The utility model provides a high concentration organic waste water treatment device which characterized in that: the device comprises a tank body for containing high-concentration organic wastewater and a first water pump arranged in the tank body, wherein a first tank container and a second tank container are arranged outside the tank body, the water outlet end of the first water pump is connected with the water inlet end of the first tank container after being connected with a first micro-bubble ejector, the water outlet end of the first tank container leads to the tank body, a branch pipeline with a switch valve is connected beside the water inlet end of the first tank container, the branch pipeline is connected with the water inlet end of the second tank container, the outlet at the lower part of the second tank container is connected with the second water pump and the second micro-bubble ejector in sequence and then is connected with the inlet at the lower part of the second tank container, and the bottom of the second tank container is provided with a water outlet.

2. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the microbubble ejector includes that one end is the body that water inlet, one end are microbubble water output end, be equipped with at least a set of water guide piece on the body internal perisporium, the water guide piece of every group includes two at least lugs along the circumference equipartition in same cross-section, all is equipped with on every lug so that the rivers through this lug are advanced by the straight line and become the water guide surface that the spiral was advanced, is equipped with the gas pocket on the body, gas pocket and air intercommunication cross.

3. The apparatus for treating high concentration organic wastewater according to claim 2, characterized in that: the water guide surface is an inclined surface, an included angle of 5-85 degrees is formed between the water guide surface and the axis of the pipe body, and the inclined surfaces on adjacent lugs form different or same included angles with the axis of the pipe body; two to five convex blocks are uniformly distributed in the same section along the circumference, and the section is a section vertical to the axis of the tube body.

4. The apparatus for treating high concentration organic wastewater according to claim 2 or 3, characterized in that: the pipe body is provided with a through hole perpendicular to the axis of the pipe body, a cylinder block is fixed in the through hole, the convex block is a part of the cylinder block protruding out of the inner peripheral wall of the pipe body, and a guide circular bead is arranged between the cylinder block and the water guide surface.

5. The apparatus for treating high concentration organic wastewater according to claim 4, wherein: two groups of water guide blocks are arranged in the pipe body along the axis direction of the pipe body, and the air passing hole is positioned between the two groups of water guide blocks.

6. The apparatus for treating high concentration organic wastewater according to claim 2, characterized in that: a plurality of air passing holes are uniformly distributed on the circumference of the same section or different sections of the tube body along the axis vertical to the tube body, and the central lines of the air passing holes are vertical to or tangent to the inner peripheral wall of the tube body, or the air passing holes are spiral; or the air passing hole forms an included angle with the axis of the pipe body.

7. The apparatus for treating high concentration organic wastewater according to claim 2, 5 or 6, characterized in that: the peripheral cover of body is equipped with the outer tube, the outer tube both ends are the confined with the body periphery wall, be equipped with the trachea mouth of pipe on the outer tube, form the negative pressure cavity between outer tube internal perisporium and the body periphery wall, cross gas pocket and negative pressure cavity intercommunication, connect the extension trachea on the trachea mouth of pipe.

8. The apparatus for treating high concentration organic wastewater according to claim 7, characterized in that: the water guide block and the air passing hole are respectively arranged on the first section and the third section, and two ends of the outer sleeve are in threaded connection with the first section and the third section.

9. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: the first tank container and the second tank container are hollow tanks, and light spheres which are beneficial to stirring water are arranged in the first tank container and the second tank container; the volume of the tank body is 5 cubic meters, the tank body is a concave tank body formed by digging on the ground, and the volumes of the first tank body container and the second tank body container are respectively 3 cubic meters and 15-20 cubic meters and are arranged above the ground.

10. The apparatus for treating high concentration organic wastewater according to claim 1, wherein: and an ozone machine is connected in series on a pipeline for communicating the air passing hole of the first micro-bubble jet device with the air.

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