KR20090081985A - Harmfulness gas cleaning system - Google Patents

Abstract

A harmful gas treatment apparatus is provided to treat harmful gas that has not been treated by bio filtering equipment only, and supply ozone generated from plasma treatment equipment to bio filtering equipment, thereby increase efficiency of the bio filtering equipment. A harmful gas treatment apparatus comprises: bio filtering equipment(10) filtering harmful gas supplied; plasma treatment equipment(20) decomposing the harmful gas that has been filtered in the bio filtering equipment; and a bypass pipe(30) supplying to the bio filtering equipment a portion of exhaust gas exhausted from the plasma treatment equipment after decomposing the harmful gas in the plasma treatment equipment. The bypass pipe has a gas amount-adjusting valve(31) installed thereon. The gas amount-adjusting valve includes a sensor(32) measuring the ozone concentration of a gas mixture of the harmful gas and exhaust gas, and a control part(40) controlling the sensor. The bio filtering equipment includes a water tank(17), a bio filtering part, a harmful gas inlet, a water spray, and an outlet(19). The harmful gas treatment apparatus further comprises a neutralizer feeder(14), a nutrient feeder(15), and an air bubble feeder(16).

Description

Hazardous Gas Cleaning System

The present invention relates to a harmful gas treatment apparatus using a plasma treatment apparatus and a bio filtration apparatus, in more detail, the harmful gas filtered by the bio filtration apparatus is decomposed and treated in a plasma treatment apparatus, the treatment in the plasma treatment apparatus The present invention relates to a noxious gas treatment device configured to increase the efficiency of the biofilter by controlling the ozone concentration in the biofilter by supplying a portion of the discharged gas to the biofilter.

Conventional bio filtration device is to remove the harmful gas by using the decomposition of microorganisms, and as a filler uses microorganisms present in municipal waste, hay, compost, porous clay and the like.

In order to maintain continuous performance in such a device, the control of moisture, temperature, and dust is very important. Therefore, a separate water control device is required, and since the cleaning of the biomass is required for periodic maintenance, frequent cleaning requires a large amount of wastewater. And raises the treatment cost.

A blower 1 for supplying noxious gas, a bio filtration part 2, a pump 3 for supplying water and a spray nozzle 4, and the water stored in the water tank as shown in FIG. It consists of a neutralizing agent supply device (5) for supplying a nutrient, a nutrient supply device (6) for supplying nutrients, and an air bubble supply device (7) for supplying oxygen, which is permanently applied to the biofilter unit (2) of one or more stages. Filling by supplying the nutrient and the neutralizing agent water to the first supply device 5 and the neutralizing agent supply device 6 through the pump 3 and the injection nozzle 4 from the upper part of the bio-filtration unit 2 which is the carrier filling layer Bio trickling filtration devices for supplying the moisture and nutrients necessary for the microorganisms in the bed are widely used.

However, as the purification time increases, the bio trickling filtration device may cause corruption by dissolving and dissolving the pollutant gas in the storage water stored in the water tank, which may cause water pollution, thereby causing a purification capacity per unit volume. Since the purification capacity is limited, the system has to be configured in multiple stages, so the volume and manufacturing cost of the system increase rapidly.

Accordingly, the present invention has been made to solve the above problems, the present invention by applying a plasma processing apparatus of the plasma type in combination with a bio filtration device using a bio filter to take advantage of the advantages of plasma and bio filter, respectively, enormous cost It is an object of the present invention to provide a noxious gas treatment system using plasma and a biofilter that can increase the purification capacity of the system without an increase and can treat a high concentration of harmful gases that cannot be treated only by a biofilter using a biofilter.

In addition, an object of the present invention is to increase the efficiency of the biofilter by adjusting the concentration of ozone (O ₃ ) in the biofilter.

In general, when harmful gases are decomposed into a plasma reactor, several hundred ppm of ozone is generated during the plasma reaction.

In the bio filtration device using the microorganism, when the concentration of ozone is high or low, the efficiency of the bio filtration device is lowered. In the bio filtration device, the concentration of ozone (O ₃ ) is preferably 10 to 20 ppm.

Therefore, it is intended to increase the efficiency of the bio filtration apparatus by controlling the ozone concentration in the bio filtration apparatus using the exhaust gas treated in the plasma processing apparatus.

In accordance with one aspect of the present invention, there is provided a toxic gas treating apparatus comprising: a bio filtration apparatus for filtering a toxic gas supplied thereto; A plasma processing device for decomposing harmful gas filtered from the bio filtration device; It is composed of a bypass tube for supplying a part of the exhaust gas which is decomposed and discharged from the plasma processing device to the bio filtration device.

The plasma processing apparatus uses a conventional low temperature plasma reactor, such as RF plasma, pulse corona, dielectric barrier discharge (DBD) plasma, gliding discharge plasma, and the gliding discharge plasma reactor in the present invention. Is shown in the Examples.

The bio filtration device includes a water tank in which water is stored below; A bio filtration unit installed above the water tank; A harmful gas inlet through which harmful gas flows between the water tank and the bio filtration unit; A water injector formed to inject water from above the bio filtration unit; Consists of a discharge port for discharging the harmful gas treated in the bio filtration unit,

A neutralizer supply device and a nutrient supply device are installed to supply neutralizers and nutrients to the water stored in the water tank, and an air bubble supply device is installed at one side to supply oxygen to the stored water.

The bio filtration unit is a multi-stage stack of porous inorganic carriers supported by microorganisms, and a multi-stage stack of porous inorganic carriers such as polyurethane foam having a rectangular block shape.

The neutralizing agent supplied by the neutralizing agent supply device uses sodium hydroxide (NaOH), and the nutrient supplied by the nutrient supplying device uses inorganic nutrients such as N, P, and K required for microbial habitat and metabolism.

The bypass pipe is provided with a gas amount adjusting valve to adjust the amount of exhaust gas to be bypassed, the control valve is adjusted so that the ozone concentration of the mixed gas of the supplied harmful gas and the exhaust gas is bypassed to 10 ~ 20ppm. This controls the ozone concentration in the biofilter by adjusting the ozone concentration of the mixed gas.

The control valve is preferably installed by a sensor for measuring the ozone concentration of the mixed gas of the harmful gas supplied and the exhaust gas bypassed by a control unit for collecting the information measured by the sensor and the control unit.

As described above, by treating the harmful gas with a bio filtration device using microorganisms first by a bio filtration device and a plasma processing device according to the present invention, and by treating the harmful gas with a plasma processing device using a plasma reactor as a second step, bio filtration. There is an effect that can handle harmful gases that are not treated only by the device,

In addition, there is an effect of increasing the efficiency of the bio filtration device by supplying ozone generated in the plasma processing device to the bio filtration device.

It will be described in more detail with reference to Figure 2 showing an embodiment of the present invention.

As shown in FIG. 2, the apparatus for treating harmful gases of the present invention includes a biofilter 10 for treating the harmful gas supplied to the blower 1 with microorganisms and a hazardous gas treated by the biofilter 10. The plasma processing apparatus 20 and the bypass pipe 30 which bypasses a part of the exhaust gas processed and discharged by the plasma processing apparatus 20 to the bio filtration apparatus 10 are comprised.

The bio filtration device 10 is harmful to the water tank 17, the water is stored in the lower side, the bio filtration unit 11 installed above the water tank, and the water tank and the bio filtration unit 11 Noxious gas inlet 11 through which gas is introduced, a water injector formed of a pump 12 and an injection nozzle 13 to inject water from the upper side of the bio filtration unit 11, and the bio filtration unit 11. Outlet 19 for discharging the harmful gas treated in the c), a neutralizer supply device 14 and a nutrient supply device 15 installed to supply neutralizers and nutrients to the water stored in the water tank, and oxygen to be supplied. It consists of an air bubble supply device 16 is installed.

The bio filtration unit 11 is a stack of porous inorganic carriers in which microorganisms are supported, and a stack of porous inorganic carriers such as polyurethane foam having a rectangular block shape is stacked in multiple stages.

The neutralizing agent supplied by the neutralizing agent supply device 14 uses sodium hydroxide (NaOH), and the nutrients supplied by the nutrient supplying device 15 are inorganic, such as N, P, K, which are required for microbial habitat and metabolism. Use nutrients.

The plasma processing apparatus 20 uses a conventional low temperature plasma reactor such as RF plasma, pulse corona, dielectric barrier discharge (DBD) plasma, and gliding discharge plasma, and generates high voltage. The high voltage generator 21 and the plasma reaction part 22 for decomposing harmful gas supplied.

In the exemplary embodiment of the present invention, the gliding discharge plasma reactor is illustrated. The plasma reactor 22 applies an alternating current or a pulsed high voltage to both ends of a metal plate having a cross section similar to two semicircles by an alternating current or a pulse high voltage. An example of a plasma suitable for the present invention may be a gliding discharge plasma that generates an arc and supplies gas to the center to extinguish the arc while moving along the metal plate surface.

The bypass pipe 30 is to supply a part of the exhaust gas treated and discharged from the plasma processing apparatus 20 to the bio filtration device 10.

The bypass pipe 30 is provided with an exhaust gas regulating valve 31 to adjust the amount of exhaust gas bypassed.

The valve 31 can be adjusted by the control unit 40 by using a solenoid valve.

That is, a sensor 32 is installed to measure the ozone concentration of the mixed gas of the supplied harmful gas and the exhaust gas bypassed, and the controller 40 adjusts the valve 31 by the measured value from the sensor 32. By adjusting the amount of exhaust gas bypassed to adjust the ozone concentration of the mixed gas.

The sensor 32 is installed inside the biofilter 10 to measure the ozone concentration in the biofilter 10, and through the control unit 40 by the measured value of the ozone concentration in the biofilter 10 31) may be adjusted.

As described above, the noxious gas filtering device configured as described above is treated with the harmful gas flowing into the blower 1 in the biofilter 10, and the noxious gas treated in the biofilter 10 is plasma-treated. 20) is decomposed by the plasma and discharged to the outside. Part of the exhaust gas that is decomposed and discharged from the plasma processing apparatus 20 is supplied to the biofilter 10 through the bypass pipe 30.

The amount of exhaust gas bypassed into the biofilter 10 is controlled by the valve 31 such that the ozone concentration of the mixed gas of the noxious gas and the exhaust gas is 10-20 ppm.

The valve 31 is controlled by the sensor 32 and the control unit 40 for measuring the ozone concentration.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

1 is a schematic view of a conventional bio filtration device.

Figure 2 is a schematic diagram of the harmful gas treatment apparatus of the present invention.

[Description of Codes for Main Parts of the Invention]

10: Bio filtration device

11: bio filtration unit 12: pump

13 injection nozzle 14 neutralizer supply device

15: nutrient supply device 16: air bubble supply device

20: plasma processing apparatus

21: high pressure generator 22: plasma reaction unit

30: bypass pipe

31: valve 32: sensor

40: control unit

Claims (10)

In the harmful gas treatment device using a bio filtration device, A bio filtration device for filtering the supplied harmful gas; A plasma processing device for decomposing harmful gas filtered from the bio filtration device; And a bypass pipe for supplying a part of exhaust gas decomposed and discharged from the plasma processing device to the bio filtration device. The method of claim 1, The bypass pipe is a harmful gas treatment device, characterized in that the valve for adjusting the gas amount is installed to adjust the amount of exhaust gas bypassed. The method of claim 2, The regulating valve is a hazardous gas treatment device, characterized in that the ozone concentration of the mixed gas of the supplied harmful gas and bypass gas is bypassed is adjusted to 10 ~ 20ppm. The method of claim 2, The control valve is provided with a sensor for measuring the ozone concentration of the mixed gas of the supplied harmful gas and the exhaust gas bypassed and a control unit for collecting the information measured from the sensor so that the ozone concentration of the mixed gas is 10 ~ 20ppm Toxic gas treatment device, characterized in that controlled by the sensor and the control unit. The method of claim 1, The plasma processing device is a noxious gas treatment device, characterized in that using a low temperature plasma reactor. The method of claim 1, The bio filtration device includes a water tank in which water is stored below; A bio filtration unit installed above the water tank; A harmful gas inlet through which harmful gas flows between the water tank and the bio filtration unit; A water injector formed to inject water from above the bio filtration unit; Toxic gas treatment device, characterized in that consisting of the discharge port for discharging the harmful gas treated in the bio-filtration unit. The method of claim 6, And a neutralizer supply device and a nutrient supply device for supplying neutralizers and nutrients to the water stored in the water tank. The method according to claim 6 or 7, One side of the water tank harmful gas treatment device, characterized in that the air bubble supply device is installed to supply oxygen to the stored water. The method of claim 6, The bio filtration unit is a microorganism-supported porous inorganic carrier is laminated in multiple stages, harmful inorganic gas treatment, characterized in that the porous inorganic carrier, such as polyurethane foam (polyurethane foam) made of a rectangular block type is laminated in multiple stages Device. The method of claim 7, wherein The neutralizing agent supplied by the neutralizing agent supply device uses sodium hydroxide (NaOH), The nutrient supplied by the nutrient supply device is a harmful gas treatment device, characterized in that the use of inorganic nutrients necessary for microbial habitat and metabolism.

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