KR100906485B1 - Air cleaner purifing the polluted air and waste gas - Google Patents

Abstract

An apparatus for purifying polluted air and exhaust gas is provided to reduce contamination of the air by purifying all kinds of the compounds or oxides due to combustion of fossil fuels. An apparatus for purifying polluted air and exhaust gas includes an electrode part(10), a circulating part, and a circuit part(30). The electrode part includes a plurality of conductive plates(11) and a plurality of conductive nets(12). The conductive net is separated from the conductive plates in parallel, and is connected with a coil. The circulating part includes a lead-in route, a chute channel(21), a waterway(22), a decomposition bath, and a pump. The circuit part includes a DC power supply(31), a negative charge wire(32), a first ground wire(33), and a second ground wire(34). The negative charge wire connects a cathode with a net electrically.

Description

Air cleaner purifing the polluted air and waste gas}

The present invention relates to a purification apparatus for efficiently decomposing various oxides and compounds harmful to the human body to purify air and exhaust gas.

The progress of industrialization provided various mechanisms and systems that make human life more convenient and convenient, but also caused various environmental pollution that threatened the stability of human life.

Environmental pollution is caused by artificially producing various kinds of harmful oxides and compounds in which only a very small amount exists in nature, and this increase occurs when the balance of the ecosystem is destroyed due to such increase. It is damaging to the entire ecosystem.

On the other hand, oxides and compounds are generated by oxidizing (burning) hydrocarbon-based natural resources such as coal and petroleum, or by producing and producing artificial compounds. Here, natural resources are exhausted through oxidation, and the amount of landfill is reduced by the continuous mining and consumption of finite natural resources. However, since such depletion of natural resources is to lose important human energy sources, depletion of natural resources along with environmental pollution is a big task for humankind to solve.

Accordingly, the present invention has been made to solve the above problems, and to provide a polluted air and exhaust gas purification device to reduce the pollution of the air by purifying oxides or various compounds generated by the combustion of various fossil fuels as a technical problem.

The present invention to achieve the above technical problem,

An electrode portion having a conductive plate and a conductive net spaced apart from the plate in parallel;

A circulation part including a water supply path for discharging the conductive fluid to one surface of the plate facing the net, a drainage path for collecting and draining the fluid flowing along one surface of the plate, and a pump for forcibly transferring the fluid to the water supply path; And

A circuit unit including a direct current power source, a negative wire electrically connecting the negative pole of the direct current power source to the net, a first ground line for grounding the positive pole of the direct current power source, and a second ground line for grounding the plate;

Air purifier comprising a.

According to the present invention, the decomposition and purification of oxides and compounds to improve the cleanliness of the exhaust air, the emissions generated during the purification process is harmless to the ecosystem as well as can be recycled has the effect of dramatically improving the operating efficiency of the device.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically showing the operation structure and technical configuration of the purification apparatus according to the present invention, it will be described with reference to this.

The purifier according to the present invention generates a strong electric field to apply electrical and physical external force to the adjacent oxides and compounds, through which the various oxides and compounds contained in the air are artificially decomposed and finally discharged as harmless materials to the ecosystem.

The purifier includes an electrode portion 10 composed of a conductive plate 11 and a conductive net 12 spaced apart from the plate 11, and a direct current power supply for supplying a high voltage direct current to the electrode portion 10. And a circuit part 30 including a negative electric wire 32 and first and second ground wires 33 and 34 for mediating an electrical connection between the electrode part 10 and the direct current power source 31. Although not shown in FIG. 1, the electrode part 10 includes a circulation part 20 that circulates and supplies a fluid such as water (except distilled water) having conductivity.

The electrode part 10 has a positive electrode and a negative electrode which receive the high voltage direct current supplied from the circuit part 30, and the positive electrode is a plate 11 having a face and the negative electrode is a grid 12. As is known, electrons flow from the cathode to the anode, so that the electrons constituting the high-voltage electricity of the DC power supply 31 move from the net 12 as the cathode to the plate 11 as the anode, and at this time, the plate 11 and the net Between 12 are high voltage hot electrons and electric fields emitted from the net 12. On the other hand, the cathode is composed of a lattice net 12 so as to generate a high voltage electric field over a wide space.

In general, when a needle-shaped cathode and an anode are arranged to be spaced apart from each other, and then a high-voltage electricity is supplied, a high voltage electric field is emitted from the end of the cathode. However, the electric field emitted from the needle-shaped cathode is high voltage, while the space of the influence of the electric field is very narrow. However, if the cathode in which the high voltage electric field is emitted is shaped like a net 12 having a sufficient area as in the present invention, the high voltage electric field affects a relatively large space while purifying air passing through the electrode part 10. The efficiency can be improved.

Here, the high-voltage electric field generated near the net 12 applies ionization by applying electrical and physical external forces to the oxide and the compound, and simultaneously ionizes the fluid to induce a chemical reaction between the oxide and the compound and the fluid.

For reference, in order to effectively generate a high voltage electric field, the diameter of the conductive wire constituting the net 12 as the cathode is 0.05 mm or less, and preferably 0.01 mm. On the other hand, the electricity supplied to the circuit unit 30 may be a voltage of 300kV and a current of 250mA, which may be changed depending on the object of purification and the environment in which the purification is made.

Subsequently, the conductive wire forming the net 12 may be a coiled filament. This affects the electric field in a wide range along the circumference of the coil, thereby increasing the decomposition rate of various oxides and compounds.

The positive pole of the DC power supply is grounded through the first ground line 33, and the plate 11 is grounded through the second ground line 34. That is, the plate 11 of the electrode unit 10 generates an electric field by inducing electrons concentrated in the net 12, which is a cathode, without a direct connection with the DC power supply 31. In addition, since the fluid having excellent conductivity is continuously supplied to one surface of the plate 11 facing the net 12 as the cathode, the induction rate of electrons concentrated in the net 12 is further improved. As a result, the high-voltage electricity supplied from the DC power source 31 generates a sufficient electric field to decompose oxides and compounds without a large amount of power consumption, and improves the operating efficiency of the purification device.

2 is a view schematically showing the appearance of the purification apparatus according to the present invention, Figure 3 is a view schematically showing the appearance of the purification apparatus according to the present invention, will be described with reference to this.

Purifier according to the present invention can extract various materials such as carbon, sulfur, iron, as well as various oxides mixed in the air, a plurality of plates (11, 11 ') and a plurality of net ( 12 and 12 ′ are alternately arranged to form the electrode part 10.

On the other hand, the water supply passage 21 is disposed on the upper surface of the plate (11, 11 '), which is the anode, and supplies fluid to flow along one surface of the plate (11, 11'), and drained from the water supply passage (21). Drainage passage 22 through which fluid flowing down one side of 11 and 11 'is collected, a collecting passage 23 for collecting and moving fluid collected in a plurality of drainage passages 22, and a drainage passage from the collecting passage 23 A drain pipe 24 for guiding the flow of fluid to be used, a decomposition tank 25 in which the fluid guided by the drain pipe 24 collects, a pump 27 for forcibly discharging and circulating the fluid from the decomposition tank 25; And an inlet passage 29 for distributing the fluid to the water supply passage 21 and receiving the fluid from the decomposition tank 25 by the driving of the pump 27. The first and second valves 26 and 28 may be further included.

The water supply passage 21 is formed along the upper end of the plate 11 which is the anode, and receives the fluid from the inlet passage 29. At this time, the water supply passage 21 is formed with a first drain hole (not shown) cut in contact with the plate 11 along the longitudinal direction, so that the fluid supplied from the inlet passage 29 has one surface of the plate 11. Ensure evenly distributed drainage. To this end, the water supply passage 21 is disposed to be inclined so that the fluid injected into one point may flow along the slope of the water supply passage 21, and the diameter of the first drain hole formed along the water supply passage 21 may be different. Thus, a large amount of fluid is not drained only at the one point where the fluid is first supplied. In addition, if the drainage of the water supply passage 21 formed along the plate 11 can be evenly distributed regardless of the position, various modifications can be made within the scope of the following claims.

The fluid drained through the first drain hole of the water supply passage 21 flows downward along the plate 11 and is collected in the drain passage 22 formed at the lower end of the plate 11. However, as described above, the fluid flows evenly distributed throughout the plate 11, so that the drainage passage 22 is also formed alongside the water supply passage 21 along the lower end of the plate 11. Therefore, the fluid flowing evenly distributed throughout the plate 11 can be collected in the drain 22 and drained without leakage. On the other hand, a second drain hole (not shown) is formed at one end of the drain passage 22.

The collecting passage 23 may be disposed at one end of the drain passage 22 to collect fluid from all the drain passages 22 installed in the plates 11 and 11 ′. That is, the water collecting passage 23 can communicate with the second drain hole formed in the drain passage 22 and collect the fluid drained from the second drain hole to guide the designated one point.

One end of the water collecting passage 23 communicates with the drain pipe 24. The drain pipe 24 is for guiding the fluid flowing out of the water collecting passage 23 to the decomposition tank 25. If necessary, the water collecting passage 23 and the decomposition tank 25 communicate with each other without intervening the drain pipe 24. Of course you can.

However, since the purification apparatus according to the present invention can be installed at a place where various oxides and compounds, such as a factory chimney or an automobile exhaust pipe, are exhausted, it can be designed in consideration of the form of the chimney or the exhaust pipe, and thus, the inlet path 29 ) And the structure of the collecting channel 23 may be variously modified.

The decomposition tank 25 deposits and separates various deposits contained in the fluid while accommodating the fluid from the drain pipe 24. In more detail, the fluid discharged from the electrode unit 10 is a mixture including a substance decomposed into a high voltage electric field generated in the electrode unit 10. Such materials may vary depending on what is contained in the air, and embodiments according to the present invention describe the purification of exhaust gases that occur when burning (oxidizing) methane.

2CH ₄ + O ₂ → 2CO + 4H ₂

CO + CO → C + CO ₂

CO ₂ + 8H → CH ₄ + 2H ₂ O

[Formula 1] illustrates the chemical changes occurring in the electrode unit 10, the first is to show that carbon monoxide is generated by the combustion (oxidation) of methane, the second is carbon monoxide and carbon monoxide while passing through the electrode unit 10 It reacted to produce carbon and carbon dioxide. Lastly, the carbon dioxide produced in the second is reacted with hydrogen and reduced to methane and water. This reaction occurs in the electrode portion 10 which generates a high voltage electric field, methane is exhausted between the plate 11 and the net 12, and the carbon produced in the second is applied to the fluid flowing along the plate 11. The mixture is guided to the decomposition tank 25.

6H + SO ₂ → H ₂ S + H ₂ O

SO ₂ + 2H ₂ S → 3S + 2H ₂ O

SO ₂ + 4H → S + 2H ₂ O

[Formula 2] illustrates another chemical change occurring in the electrode unit 10, the first is to show that the sulfur dioxide passing through the electrode unit 10 reacts with hydrogen to generate water and hydrogen sulfide, the second is in the first The generated hydrogen sulfide and sulfur dioxide were shown to be reduced to water and sulfur while passing through the electrode unit 10, and finally the sulfur dioxide reacted with hydrogen to reduce water and sulfur. The sulfur and water thus reduced are mixed with the fluid flowing along the plate 11 and guided to the decomposition tank 25.

Subsequently, the fluid which is the carbon mixture guided to the decomposition tank 25 is separated into the fluid with carbon in the decomposition tank 25. In general, carbon sinks to the bottom of the digestion tank 25 because of its greater density than the fluid. Therefore, in order to separate and discharge the fluid injected into the decomposition tank 25 separately from the carbon for the circulation of the fluid, the outlet 25a of the decomposition tank 25 is disposed high from the bottom. That is, carbon is deposited on the bottom of the decomposition tank 25, and the upper portion of the fluid having a relatively small mixing ratio of carbon is drained through the outlet 25a to be separated from the carbon.

On the other hand, the carbon deposited in the decomposition tank 25 is discharged by the operation of the first valve 26, the carbon discharged in this way can be dried and recycled as fuel. Herein, the carbon released forms a carbon group due to the thermodynamic equilibrium state, in which the carbon black is identified, and thus the carbon black is 10% by weight of fullerene, water and multiples. Contains polyaromatic hydrocarbons.

The fluid discharged from the decomposition tank 25 is guided to the inlet path 29 while being forcibly transported by the driving of the pump 27. As the inlet passage 29 is for supplying fluid to the water supply passage 21 located at the top of the electrode portion 10 as described above, the pump 27 is forcibly pulled up the fluid present in a relatively low position do.

The second valve 28 may adjust the amount of fluid supplied to the inlet passage 29, and may flexibly control the amount of fluid introduced into the electrode unit 10 according to the object and environment to be purified. .

On the other hand, the decomposition tank 25 is to be stored separately to recycle the reduced material, if the sole purpose of purification of the exhaust gas mixed with the oxide and compound does not have a separate decomposition tank 25, the electrode portion ( 10) The fluid discharged from it will be discharged as it is.

4 is a view schematically showing another aspect of the purification apparatus according to the present invention, will be described with reference to this.

In the above-described embodiment, the plate 11 constituting the electrode portion 10 and the net 12 are arranged in parallel to form a flat surface, and in this embodiment, the plate 11 constituting the electrode portion 10 '. And net 12 are circular tubes arranged concentrically.

Through such a structural deformation, the installation work can be facilitated by easily inserting and installing into a passage such as an exhaust pipe or a chimney manufactured in a cylindrical shape. In addition, since the curved net like the flat net, the high-voltage electric field can be diffused to a relatively large space, thereby reducing the purification efficiency.

1 is a view schematically showing the operation structure and technical configuration of the purification device according to the present invention,

2 is a view schematically showing the appearance of a purification apparatus according to the present invention,

3 is a view schematically showing the appearance of a purification apparatus according to the present invention,

4 is a view schematically showing another aspect of the purification apparatus according to the present invention.

Claims (6)

A plurality of conductive plates 11 and conductive nets 12 arranged to be spaced apart in parallel with the plates 11 and having coils connected in a lattice shape, with electrode portions 10 alternately arranged in a standing position; An inlet path 29 piped along the plate 11 and the net 12 arranged in a row, inclined along an upper end of the plate 11, in communication with the inlet path 29, and a fluid on one side of the plate 11; A plurality of first drain holes having different diameters according to positions so as to flow out evenly, and are formed to be inclined along the lower end of the plate 11 to collect fluid flowing along the plate 11 and at one end thereof. A drainage passage 22 in which a second drainage hole is formed, a water collecting passage 23 communicating with the drainage passage 22 through the second drainage hole while being piped along the line 11 and the net 12 arranged in a row; A decomposition tank 25 having an outlet 25a for discharging the sediment mixed in the fluid in a density difference and discharging the introduced fluid in communication with the 23, and the fluid collected in the decomposition tank 25 is discharged. A circulation section 20 having a pump 27 forcibly discharging from the 25a and transported to the inlet path 29; And The negative electric wire 32 which electrically connects the DC power supply 31, the negative electrode of the DC power supply 31 with the net 12, the first grounding wire 33 which grounds the positive electrode of the DC power supply 31, and a board, A circuit section 30 having a second ground line 34 for grounding (11); Air purifier comprising a. delete delete delete delete delete

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