KR20160096569A - Pre-treatment system for removing VOCs and the method therefor - Google Patents

Abstract

The present invention relates to a device and a method for pre-treatment for volatile organic compound removal. The device is provided at a front end of a biofilter, enriches a supplied volatile organic compound, and discharges the volatile organic compound of uniform concentration to the biofilter so that the biofilter can be stably operated. The apparatus of the present invention includes: a supply unit supplying contaminated gas containing a volatile organic compound; a reaction unit receiving the contaminated gas from the supply unit, adsorbing the volatile organic compound through a filter fiber of an internal cartridge unit, desorbing the volatile organic compound in response to a change in temperature in the cartridge unit, enriching the volatile organic compound of the contaminated gas, and discharging the volatile organic compound; a discharge unit supplied with the volatile organic compound concentration-controlled contaminated gas from the reaction unit and discharging the contaminated gas; and a control unit controlling the flow of the contaminated gas in the supply unit and the reaction unit and causing the concentration of the volatile organic compound to reach a target enrichment concentration by analyzing the concentration of the volatile organic compound in the reaction unit and controlling the temperature of the cartridge unit.

Description

TECHNICAL FIELD The present invention relates to a pretreatment system for removing volatile organic compounds (VOCs)

The present invention relates to a pretreatment apparatus and method for removing a volatile organic compound, and more particularly, to a pretreatment apparatus and method for removing a volatile organic compound from a biofilter by concentrating the concentration of a volatile organic compound, The present invention relates to a pretreatment apparatus and method for removal of volatile organic compounds that enable stable operation of the apparatus.

The odor components generated in sewage treatment plants, pig farms, livestock wastewater treatment plants, slaughterhouses, food factories, and various chemical plants vary widely in composition of pollutants depending on the source and source of the pollutants. Major odor inducing substances include hydrogen sulfide and mercaptan Sulfur compounds, nitrogen compounds such as ammonia and amines, and volatile organic compounds (VOCs) or volatile sulfur compounds including benzene, toluene, ethylbenzene, and xylene.

Such odorous components are generally converted to water and carbon dioxide, and are generally removed. Currently, the odor gas treatment techniques currently used include physical and chemical deodorization methods such as activated carbon absorption method, chemical solution cleaning method, ozone oxidation method, , An activated sludge method, and a bio-filter.

These methods may be used alone or in combination of two or more depending on the treatment environment in which odor gas is to be removed. However, the physico-chemical deodorization method has problems of operating costs such as chemicals and material costs, Requires a lot of area and has a drawback in that a high power loss is required due to a high pressure loss.

In recent years, there has been a growing interest in a method for deodorizing charged microorganisms using a microorganism carrier capable of operating at a small cost in a small space among the biological deodorization methods at a low cost and having high deodorization efficiency.

The method for deodorizing a carrier-loaded microorganism is a method for removing odorous gas by introducing a malodorous gas into a packed column filled with a carrier immobilizing microorganisms. The microorganisms in the packed column are maintained by the energy generated by the decomposition of the malodorous gas and a small amount of nutrients. do. That is, the malodorous components are decomposed and removed by the cultured microorganism.

The biological method using microorganisms as described above has been mainly used for general wastewater treatment, but recently it has been applied to the field of odor removal and its utilization has been increasing.

However, in such a biological method, the biofilter is difficult to operate stably due to the characteristics of the biofilter utilizing limited microorganisms when the concentration of volatile organic compounds in the polluted gas is rapidly changed or the flow rate is fluctuated. Since the concentration and flow rate of such volatile organic compounds are frequently changed, there is a great difficulty in applying and operating the biofilter in the actual field.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide a biofilter which is provided at a front end of a biofilter and concentrates a concentration of a volatile organic compound to be supplied, The present invention provides a pretreatment apparatus and method for removing volatile organic compounds that enable stable operation of the apparatus.

According to the present invention, there is provided an apparatus for supplying pollutant gas containing volatile organic compounds, The supply of the pollutant gas to the supply unit causes the volatile organic compound to be adsorbed through the filter fiber of the internal cartridge unit and the concentration of the volatile organic compound in the internal pollutant gas is desorbed by the temperature change of the cartridge unit, part; A discharge unit for receiving and discharging the polluted gas whose concentration of the volatile organic compound is controlled from the reaction unit; And a control unit for controlling the concentration of the volatile organic compounds in the reaction unit and controlling the temperature of the cartridge unit so that the concentration of the volatile organic compound becomes the target concentration concentration; The present invention also provides a pretreatment apparatus for removing volatile organic compounds.

Preferably, the reaction unit comprises: an intake fan and an exhaust fan for introducing the polluted gas into the reaction part and discharging the reaction part outside; A cartridge unit that is placed in the reaction unit and adsorbs volatile organic compounds through the filter fibers; A power line connected to the cartridge unit to supply current; A temperature measuring unit for measuring a temperature of the cartridge unit; And a concentration meter for measuring the concentration of the volatile organic compound in the polluted gas in the reaction part; And a control unit.

Preferably, the cartridge unit is formed by winding filter fibers in an insulating frame, and the power line is connected to an insulating frame, and the insulating frame is heated according to the supply of electric current to adjust the temperature of the filter fiber.

Advantageously, the cartridge units are mounted by spaced-apart support holes of the slot supports.

Preferably, the control unit includes: an air volume controller for controlling the operation of the intake fan and the exhaust fan of the reaction unit; A power regulator for supplying current to the cartridge unit through the power line; And a control unit for controlling the air conditioner to control the temperature of the cartridge unit by controlling the power conditioner so that the measured value of the volatile organic compound concentration is received from the concentration measuring unit of the reaction unit, A controller for discharging the polluted gas; And a control unit.

According to the present invention, there is provided a method for producing a volatile organic compound, comprising: supplying a contaminated gas containing a volatile organic compound to a reaction section; Adsorbing the volatile organic compound through the filter fiber of the cartridge unit in the supplied polluted gas; Heating the cartridge unit to change the temperature to desorb the volatile organic compound; And discharging the pollutant gas when the concentration of the volatile organic compound in the measured reaction unit reaches a target concentration concentration; The present invention also provides a pretreatment method for removing volatile organic compounds.

According to the present invention, there is an effect that stable operation of the biofilter is enabled by concentrating the concentration of the volatile organic compounds supplied at the front end of the biofilter and discharging the volatile organic compounds at a uniform concentration with the biofilter.

Particularly, regardless of the fluctuation of the concentration of the volatile organic compound in the inflowing pollutant gas, the pollutant gas having the same concentration of the concentrated volatile organic compound can be discharged at all times, thereby facilitating the maintenance of the after-treatment biofilter .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram for explaining a pretreatment apparatus for removing volatile organic compounds according to the present invention. FIG.
2 is a view for explaining a cartridge unit according to the present invention;
3 is a flowchart illustrating a pretreatment method for removing volatile organic compounds according to the present invention.
FIGS. 4 to 7 are diagrams for explaining a uniform concentration discharge effect and a concentration effect of a volatile organic compound according to the present invention. FIG.

Hereinafter, a pretreatment apparatus and method for removing volatile organic compounds according to the present invention will be described in detail with reference to the accompanying drawings.

The pretreatment apparatus for removing volatile organic compounds according to the present invention can be installed and operated in front of a filter apparatus for removing volatile organic compounds from an apparatus for discharging polluted gas containing volatile organic compounds (VOCs) And the volatile organic compounds in the polluted gas are concentrated and discharged at a constant concentration before the discharged pollutant gas is supplied to the filter.

The pretreatment apparatus for removing such volatile organic compounds includes a supply unit 100 for supplying a pollutant gas containing a volatile organic compound and a supply unit 100 for supplying the pollutant gas from the supply unit 100 to the filter fiber A reaction unit 200 for adsorbing volatile organic compounds through the reaction unit 232 and desorbing the volatile organic compounds by the temperature change of the cartridge unit 230 to concentrate and discharge the volatile organic compound concentration of the internal polluting gas, A discharge unit 400 for transferring and discharging the polluted gas whose concentration of the volatile organic compound is controlled from the supply unit 400 and the reaction unit 200, The control unit 300 controls the temperature of the cartridge unit 230 so that the concentration of the volatile organic compound becomes the target concentration concentration It may be configured to also.

The supply unit 100 is connected to a pollutant gas discharge port of the pollutant gas discharge facility to supply the pollutant gas to the reaction unit 200.

The discharge unit 400 discharges the polluted gas whose concentration of the volatile organic compound is adjusted to the target concentration concentration by the reaction unit 200 and preferably includes a filter unit 500 for removing volatile organic compounds from the polluted gas So that the pollutant gas can be supplied to the filter unit 500.

The reaction unit 200 has an internal space through which the pollutant gas can be introduced from the supply unit 100 and is operated under the external control of the control unit 300 to control the volatile organic compound concentration of the pollutant gas to a target concentration level Regulated and discharged.

The reaction unit 200 includes an intake fan 210 and an exhaust fan 270 for introducing the polluted gas into the reaction unit 200 and discharging the reaction gas to the outside of the reaction unit 200, A power supply line 240 connected to the cartridge unit 230 to supply a current and a temperature measuring unit 230 for measuring the temperature of the cartridge unit 230; And a concentration measuring unit 260 for measuring the concentration of the volatile organic compound in the pollutant gas in the reaction unit 200.

The suction fan 210 is installed at a connection part of the reaction part 200 with the supply part 100 and operates according to the control of the control part 300 to suck the polluted gas from the supply part 100. Although the suction fan 210 is shown at the connection portion with the supply unit 100 in the reaction unit 200 in the drawings and the description above, It is possible to place it at any position as long as it can be introduced into the housing 200.

The exhaust fan 270 is installed at a connection portion with the exhaust unit 400 in the reaction unit 200 and operates according to the control of the control unit 300 to remove the pollutant gas from the reaction unit 200 from the exhaust unit 400, . Although the exhaust fan 270 is illustrated as being installed at the connection portion with the exhaust unit 400 from the reaction unit 200 in the drawings and the description above, It is possible to discharge the exhaust gas to the discharge unit 400 at any position.

A slot support 220 having a plurality of support holes 221 is installed in the inner space of the reaction unit 200 and the cartridge units 230 are inserted into the support holes 221 of the corresponding slot support 220. . The densities of the cartridge units 230 can be adjusted through the arrangement of the support holes 221, and the respective cartridge units 230 are preferably spaced apart from each other.

2, the cartridge unit 230 includes an insulating frame 231 having a predetermined space therein using an insulating material, and a filter fiber 232 wound around the insulating frame 231 A power supply line 231a made of a conductive material is provided at the upper and lower ends of the insulation frame 231 so that the power supply line 240 can be connected. In this heat transfer structure, when current is transmitted through the power line 240, the insulating frame 231 may be heated according to the amount of current to control the temperature of the filter fiber 232.

Here, the insulating frame 231 is preferably a mica board as a resistance material for electric current, but any material can be used as long as it is a heat-resistant resistance material.

The filter fiber 232 is preferably an activated carbon fiber (ACF). This activated carbon fiber is a fibrous adsorbent, fibrous activated carbon made by burning and reviving natural fiber, artificial organic material, and chemical fiber as a carrier. It has higher adsorption power than powder or granular activated carbon and can be regenerated easily at high temperature. It has a long lifetime and low maintenance cost compared to general activated carbon. Particularly, it is suitable as an adsorbent material for volatile organic compounds (VOCs) such as the present invention because of its large surface area, large adsorption capacity, fast adsorption and desorption rates, and excellent releasability. The filter fiber 232 is wound and fixed several times on the insulating frame 231, and the temperature of the filter fiber 232 can be received as it is heated.

The temperature measuring unit 250 may be a non-contact type infrared thermometer for measuring the temperature of the cartridge unit 230.

The concentration meter 260 is configured to measure the concentration of volatile organic compounds in the pollutant gas in the reaction unit 200, and may be composed of PID.

The volatile organic compound of the polluted gas that is sucked in the reaction part 200 will be adsorbed to the filter fiber 232 of the cartridge unit 230. When a current is applied by the power line 240 to increase the temperature of the cartridge unit 230, the volatile organic compounds adsorbed on the filter fibers 232 are desorbed. As the temperature is higher, Lt; RTI ID = 0.0 > 232 < / RTI > Accordingly, it is possible to control the desorption amount of the volatile organic compound through the temperature control of the cartridge unit 230, and as a result, the volatile organic compound concentration of the polluting gas in the reaction part 200 can be controlled. Particularly, the concentration of the volatile organic compound in the pollutant gas in the reaction part 200 can be adjusted to a predetermined target concentration, and the control to the target concentration can be performed by controlling the reaction part 200 of the control part 300 .

The control unit 300 includes an air volume controller 320 for controlling the operation of the intake fan 210 and the exhaust fan 270 of the reaction unit 200 and a control unit for controlling the current through the power supply line 240 to the cartridge unit 230 The controller 300 receives the measured value of the concentration of the volatile organic compound from the concentration meter 260 of the reaction unit 200 and controls the power controller 310 so as to achieve the target concentration concentration, A control unit 330 for controlling the temperature of the control unit 230 and controlling the air volume regulator 320 to discharge the pollutant gas having the volatile organic compound having the target concentration concentration, And an indicator 340 capable of monitoring the operation of the apparatus.

The power regulator 310 controls the current supply to each of the cartridge units 230 and adjusts the amount of current according to a preprogrammed control algorithm to control the temperature of the cartridge unit 230. [

The controller 330 receives the concentration value of the volatile organic compound in the reactor 200 from the concentration meter 260 and compares the concentration of the volatile organic compound in the reactor 200 with the target concentration concentration of the predetermined volatile organic compound, If the concentration of the volatile organic compound is lower than the target concentration, the amount of current applied to each of the cartridge units 230 through the power regulator 310 is increased to increase the temperature of the cartridge unit 230 so that more volatile organic compounds can be desorbed The concentration of the volatile organic compound in the reaction part 200 will be increased.

The controller 330 receives the concentration value of the volatile organic compound present in the reaction part 200 from the concentration meter 260 and compares the concentration value with the target concentration concentration of the predetermined volatile organic compound, When the concentration of the volatile organic compound in the cartridge unit 230 reaches the target concentration level, the current applied to each of the cartridge units 230 is interrupted through the power regulator 310 to lower the temperature of the cartridge unit 230, So that the concentration of the volatile organic compound in the reaction part 200 will be adjusted to the target concentration concentration.

As the process (current supply / cutoff) is repeated, the concentration of the volatile organic compound in the reaction unit 200 will be maintained at the target concentration concentration.

Referring to FIG. 3, a pretreatment method for removing volatile organic compounds according to the present invention will be described.

First, in step S10, the polluted gas containing volatile organic compounds (VOCs) will be supplied to the reaction part 200 through the supply part 100. [

Next, in step S20, the volatile organic compound of the supplied contaminant gas will be adsorbed to the filter fiber 232 of the cartridge unit 230 in the reaction part 200.

Next, in step S30, the controller 300 supplies current to the cartridge unit 230 through the power regulator 310 to concentrate the concentration of the volatile organic compound in the pollutant gas in the reaction unit 200, The adsorbed volatile organic compound will be desorbed.

Next, in step S40, the controller 300 receives the concentration value of the volatile organic compound present in the reactor 200 from the concentration meter 260 and compares the concentration of the volatile organic compound with the target concentration concentration of the predetermined volatile organic compound, If the concentration of the volatile organic compound in the cartridge unit 230 is lower than the target concentration concentration, the process proceeds to step S30 to increase the amount of current applied to each cartridge unit 230 through the power controller 310, By increasing the temperature, desorption of more volatile organic compounds will be induced and the concentration of volatile organic compounds in the reaction part 200 will be increased.

As a result of the determination in step S40, the controller 300 compares the target concentration of the volatile organic compound with the predetermined concentration of the volatile organic compound to determine whether the concentration of the volatile organic compound in the reaction part 200 reaches the target concentration The current applied to each of the cartridge units 230 is cut off by the power regulator 310 to lower the temperature of the cartridge unit 230 so that the detachment of the volatile organic compounds is stopped to remove the volatile organic compounds The concentration will be adjusted to the target concentration.

As the process (current supply / cutoff) is repeated, the concentration of the volatile organic compound in the reaction unit 200 may be maintained at the target concentration level.

In step S60, the control unit 300 operates the exhaust fan 270 through the air volume controller 320 to discharge the pollutant gas containing the volatile organic compound having the target concentration concentration. The polluted gas thus discharged will be transmitted to the filter side for purifying the polluted gas.

Hereinafter, the uniform concentration discharge effect and the concentration effect of the volatile organic compound according to the present invention will be described with reference to FIG. 4 to FIG.

4 is a graph showing discharge concentrations of volatile organic compounds according to time in an industrial field without applying the pretreatment apparatus and method for removing volatile organic compounds according to the present invention. The concentration of volatile organic compounds in the polluted gas discharged from industrial sites such as sewage treatment plants, pig farms, livestock wastewater treatment plants, slaughterhouses, food factories, and various chemical plants is not uniform as shown in the drawing, It can be seen that the fluctuation range of the concentration value and the maximum concentration value is very large. As a result, in the filter device using the biofilter, the concentration of the volatile organic compound in the polluted gas is rapidly changed or the flow rate is limited. There is a problem that it is difficult to operate stably due to the characteristics of the biofilter utilizing microorganisms.

The present invention in which the concentration of the volatile organic compound is kept constant at the target concentration concentration by regulating the adsorption and desorption of the filter fiber 232 by regulating the temperature of the internal cartridge unit 230 by repeating supply and interruption of current, The volatile organic compound discharge concentration of the pretreatment apparatus of the present invention enables the stable operation of the filter side, particularly the filter side operated with the biofilter, because it discharges the pollution gas having the volatile organic compound of uniform concentration as shown in the graph of FIG. 5 .

According to the present invention, as shown in FIG. 6 and FIG. 7, the current supply and cutoff are repeated to adjust the temperature of the internal cartridge unit 230, The concentration of the volatile organic compound is concentrated (for example, 7.1 times, 11.9 times) as shown in the right side of the figure, and the mixture can be discharged while being kept constant by concentrating the sweeping organic compound in the reaction part 200 by adjusting desorption .

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: supply part 200: reaction part
210: Suction fan 220: Slot support
221: Support hole 230: Cartridge unit
231: Insulation frame 232: Filter fiber
240: power line 250: temperature meter
260: Concentration meter 270: Exhaust fan
300: control unit 310: power regulator
320: air volume regulator 330: controller
340: Indicator 400:
500:

Claims (6)

A supply part for supplying a pollution gas containing a volatile organic compound;
The supply of the pollutant gas to the supply unit causes the volatile organic compound to be adsorbed through the filter fiber of the internal cartridge unit and the concentration of the volatile organic compound in the internal pollutant gas is desorbed by the temperature change of the cartridge unit, part;
A discharge unit for receiving and discharging the polluted gas whose concentration of the volatile organic compound is controlled from the reaction unit; And
A control unit for controlling the flow of the polluted gas in the supply unit and the reaction unit, analyzing the concentration of the volatile organic compound in the reaction unit and controlling the temperature of the cartridge unit so that the concentration of the volatile organic compound becomes the target concentration concentration; And removing the volatile organic compound from the volatile organic compound.
The method according to claim 1,
The reaction unit includes:
An intake fan and an exhaust fan for introducing the polluted gas into the reaction part and discharging the outside of the reaction part;
A cartridge unit that is placed in the reaction unit and adsorbs volatile organic compounds through the filter fibers;
A power line connected to the cartridge unit to supply current;
A temperature measuring unit for measuring a temperature of the cartridge unit; And
A concentration measuring device for measuring the concentration of the volatile organic compound of the polluted gas in the reaction part; And removing the volatile organic compound from the volatile organic compound.
3. The method of claim 2,
Wherein the cartridge unit is formed by winding a filter fiber around an insulation frame, and the power line is connected to an insulation frame, and the insulation frame is heated according to the supply of electric current to adjust the temperature of the filter fiber. Pretreatment device.
The method of claim 3,
Characterized in that the cartridge unit is mounted by a support hole of a slot support and is spaced apart from each other.
3. The method of claim 2,
Wherein,
An air volume controller for controlling the operation of the intake fan and the exhaust fan of the reaction unit;
A power regulator for supplying current to the cartridge unit through the power line; And
The concentration of the volatile organic compound in the reaction part is received from the concentration measuring device of the reaction part, and the temperature of the cartridge unit is controlled by controlling the electric power adjuster so that the concentration of the volatile organic compound is controlled to the target concentration concentration. A controller for discharging the polluted gas; And removing the volatile organic compound from the volatile organic compound.
Supplying a contaminated gas containing a volatile organic compound to a reaction part;
Adsorbing the volatile organic compound through the filter fiber of the cartridge unit in the supplied polluted gas;
Heating the cartridge unit to change the temperature to desorb the volatile organic compound; And
Discharging the pollutant gas when the concentration of the volatile organic compound in the measured reaction unit reaches the target concentration concentration; And removing the volatile organic compound from the volatile organic compound.

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