KR200416021Y1 - VOC recovering system by using nitrogen gas - Google Patents

Abstract

The present invention is to remove the installation of the steam producing boiler by using nitrogen gas instead of the existing steam for the regeneration of the adsorption collection tower to absorb the organic solvent from the exhaust gas generated from the boiler 2 The present invention provides an apparatus for recovering volatile organic compounds in exhaust gas using nitrogen gas to eliminate secondary pollutants. The present invention is to purify by using nitrogen gas for the regeneration of the adsorption collection tower for adsorption and capture the organic solvent from the exhaust gas, and by separating and recovering the nitrogen gas and the organic solvent by using a solvent solution from the cleaned gas In other words, by eliminating the installation of a boiler that produces steam, it eliminates secondary pollution sources from the boiler and effectively reduces the size of the entire apparatus to prevent the expansion of the installation space.

Exhaust Gas, VOC, Steam, Nitrogen Gas, Solvent Solution

Description

VOC recovering system by using nitrogen gas

1 is a view schematically showing the entire system of the volatile organic compound recovery apparatus according to the present invention.

<Description of Symbols for Main Parts of Drawings>

1: Exhaust gas source 10: Exhaust gas cooling means

20: transportation means 21: fan

23a, 23b: first and second exhaust gas transfer lines 25a, 25b: first opening and closing means

30a, 30b: Adsorption collection tower 31: Exhaust gas discharge pipe

33a, 33b: second opening and closing means 40: nitrogen gas supply means

41: nitrogen gas supply line 43: nitrogen gas storage tank

45, 52, 65: Pump 50: Organic solvent separation tank

51: mixed gas transfer line 61: solvent solution

63: Pipeline 67: Shower head

71: nitrogen gas recovery line 73: heating means

80: solvent solution amount adjusting means 81: solvent solution reservoir

82: solvent solution transfer line

The present invention relates to a device for recovering volatile organic compounds in exhaust gas for efficiently recovering organic solvents such as volatile organic compounds (VOC), which is an air pollution source. In order to clean it, it is cleaned by using nitrogen gas instead of the existing steam, and the nitrogen gas and organic solvent are separated and recovered by using a solvent solution. The present invention relates to a device for recovering volatile organic compounds in exhaust gas using nitrogen gas, which eliminates secondary sources of pollution and effectively reduces the size of the entire apparatus to prevent the expansion of installation space.

In general, air pollution is generated from the exhaust gas emitted from refineries that produce organic solvents, which are petroleum oils, storage and storage stations that store and handle organic solvents, storage facilities that use organic solvents, and storage facilities and coating facilities that use organic solvents. It is well known that organic solvents such as volatile organic compounds that cause a high content are contained. For this reason, in the exhaust gas generation source containing organic solvent, the organic solvent recovery apparatus which has the adsorption | suction adsorption | suction collection tower packed with activated carbon etc. is installed, and the organic solvent is filtered and discharged from exhaust gas. As such, the adsorption type collecting tower that filters and discharges the organic solvent from the exhaust gas is degraded due to the collected organic solvent after a predetermined time. Conventionally, the organic solvent is absorbed and collected to supply steam to the activated carbon whose activity is reduced. To reproduce it.

However, a boiler must be provided in order to produce steam supplied to regenerate the activated carbon charged in the collection tower, which causes a problem that the total size of the organic solvent recovery device is increased and the installation space is expanded. Secondary air pollutants are generated due to the fuel used for the purpose, and there is also a problem of polluting the soil due to waste water. Due to these problems, when using an electric boiler, high cost of electricity is generated and there is an economic problem.

Therefore, the object of the present invention was devised to solve the above problems, and when using for the regeneration of the adsorption collection tower that absorbs the organic solvent from the exhaust gas to be cleaned, using the nitrogen gas instead of the conventional steam to clean the gas By separating and recovering nitrogen gas and organic solvent by using solvent solution, it eliminates the installation of existing steam producing boilers, eliminating secondary pollution sources generated from the boilers, and effectively reducing the size of the whole device to increase the installation space. It is to provide a volatile organic compound recovery apparatus in the exhaust gas using nitrogen gas to prevent the.

The present invention for achieving the above object is a cooling means for cooling the exhaust gas obtained from the exhaust gas source containing the organic solvent to a predetermined temperature or less; A fan which is connected to the cooling means and sucks the exhaust gas cooled from the cooling means to move to a pair of collection towers, and an exhaust gas movement line for connecting the fan and the collection towers, respectively; Conveying means comprising first opening and closing means for opening and closing the exhaust gas moving line, respectively; Respectively connected to the exhaust gas moving line, and opening and closing the upper portion at the upper portion for adsorbing and collecting the organic solvent from the exhaust gas from the cooling means introduced by the first opening / closing means to be discharged to the outside through the upper portion. A pair of adsorptive collection towers each having a second opening and closing means for opening; Each of the first opening and closing means is closed and the second opening and closing means corresponding to the closed first opening and closing means is opened and closed through the opened second opening and closing means. Nitrogen gas supply means for supplying nitrogen gas for cleaning the adsorption-collected organic solvent to the collection tower connected to the first opening and closing means; It is connected between the nitrogen gas supply means and the collection towers, and the mixed gas mixed with the organic solvent and nitrogen gas purged from the collection tower received nitrogen gas from the nitrogen gas supply means and brought in An organic solvent separation tank for showering a mixed gas with a solvent solution previously stored therein, separating and precipitating the organic solvent from the mixed gas, and feeding back the separated nitrogen gas to the nitrogen gas supply means; And a solvent solution amount adjusting means connected to the organic solvent separation tank and configured to recover or supply a predetermined amount of solvent solution from the organic solvent separation tank to maintain a constant solvent solution of the organic solvent separation tank. .

In the middle of the nitrogen gas recovery line connecting between the nitrogen gas supply means and the collection tower, it is preferable that the nitrogen gas heating means is further connected.

The above objects, advantages and other features will become apparent from the following description with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

1 is a view schematically showing the entire system of the volatile organic compound recovery apparatus according to the present invention.

1. Exhaust gas cooling stage

The exhaust gas obtained from the exhaust gas generation source 1 containing an organic solvent such as volatile organic compound (VOC) is cooled by the cooling means 10 to a predetermined temperature or less. The cooling means 10 is provided with a temperature sensor in the exhaust gas inlet to drive the air cooler when the exhaust gas obtained from the exhaust gas source 1 is 40 ℃ or more to cool to 40 ℃ or less. The operation is controlled by the controller. The cooling means 10 is cooled by heat exchange with the cold wind generated from the air cooler by moving the exhaust gas along the pipeline arranged in either zigzag or coil type in order to enlarge the heat transfer area. This is to increase the adsorption collection rate of the organic solvent to the adsorption collection tower 30 described below.

2. Transfer of cooled exhaust gas

Exhaust gas cooled below the predetermined temperature from the cooling means 10 is transferred to the adsorption type collecting tower 30 through the transfer means 20. The conveying means 20 is a fan 21 for sucking the exhaust gas cooled from the cooling means 10 to move to the pair of first and second collection towers (30a, 30b), and the fan ( 21 and first and second exhaust gas movement lines 23a and 23b for connecting between the first and second collection towers 30a and 30b, respectively, and the first and second exhaust gas movements. Exhaust air cooled from the cooling means 10, comprising first opening and closing means 25a and 25b connected and staked to the first and second collecting towers 30a and 30b to open and close lines 23a and 23b, respectively. Gas is sent to the first and second collection towers 30a, 30b. The first opening and closing means 25a and 25b opens and closes the first and second exhaust gas moving lines 23a and 23b by dampers operated by cylinders.

3. Adsorption and collection of harmful substances

The first and second adsorption collection towers 30a and 30b are provided from the cooling means 10 introduced by opening the first opening and closing means 25a and 25b through an adsorption trapping material such as activated carbon filled therein. The organic solvent is collected by adsorption from the exhaust gas, and then discharged to the outside through the exhaust gas discharge pipe 31 disposed above. The adsorptive collection towers 30a and 30b are provided with second opening and closing means 33a and 33b having the same structure as the first opening and closing means 25a and 25b to open and close the upper portion thereof. By opening the 33a and 33b, the exhaust gas from which the organic solvent is filtered is discharged to the outside through the discharge pipe 31.

4. Regenerating the adsorption collector of the collector

For example, when the first adsorption collection tower 30a is used before the second adsorption collection tower 30b among the first and second adsorption collection towers 30a and 30b, the activity of the adsorption trapping material is lowered. The first opening and closing means 25a connected to the first adsorption collection tower 30a is closed, and the second opening and closing means 33a corresponding thereto is opened, and the adsorption trapping material is opened through the opened second opening and closing means 33a. Nitrogen gas for cleaning and regenerating the high concentration of organic solvent collected in is injected into the first adsorption collection tower (30a). Nitrogen gas injected into the first adsorption collection tower 30a is supplied from a nitrogen gas supply unit 40 connected to an upper portion of the first adsorption collection tower 30. The nitrogen gas supply means 40 is connected to the first and second adsorptive collection towers 30a and 30b through a nitrogen gas supply line 41, and the first opening and closing means 25a for regenerating the adsorption trapping material. When 25b is closed and the second opening and closing means 33a and 33b are opened, nitrogen gas is discharged through the opened second opening and closing means 33a and 33b to the first and second adsorptive collection towers 30a and 30b. To supply. In the middle of the nitrogen gas supply line 41 is preferably a pump 45 for pumping nitrogen gas stored in the nitrogen gas storage tank 43 to the first and second adsorption collection towers (30a, 30b). . While the first adsorption collection tower 30a is cleaned, the first opening and closing means 25b is in an open state, whereby the second adsorption collection tower 30b is generated from the exhaust gas generating source 1. Since the exhaust gas is continuously purged and discharged, the purification process of the exhaust gas is not interrupted during the regeneration of the adsorption trapping material. When regenerating the adsorption trapping material of the second adsorption collection tower 30b, the first adsorption collection tower 30a, which has been regenerated, is purified and discharged from the exhaust gas.

5. Separation and recovery of organic solvent and nitrogen gas

An organic solvent separation tank 50 is connected between the nitrogen gas storage tank 43 and the first and second collection towers 30a and 30b. The organic solvent separation tank 50 imports a mixed gas mixed with a high concentration of organic solvent and nitrogen gas cleaned from the first or second collection tower 30a or 30b, and stores the mixed gas pre-stored therein. Showering with a solvent solution (61) to separate and precipitate the organic solvent from the mixed gas and the separated nitrogen gas serves to feed back to the nitrogen gas storage tank (43). While showering with the solvent solution 61 inside the organic solvent separation tank 50, the organic solvent that is heavier than the nitrogen gas constituting the mixed gas is washed in the solvent solution 61 to the lower portion of the organic solvent separation tank 50. Nitrogen gas that is precipitated and remains unwashed in the solvent solution 61 is recovered through a nitrogen gas recovery line 71 connecting the separation tank 50 and the nitrogen gas storage tank 43 to the nitrogen gas storage tank ( 43 and reused in regeneration of the first and second collection towers 30a, 30b. At this time, in the middle of the nitrogen gas recovery line 71 it is preferable that the heating means 73 made of a heater for heating the activated nitrogen gas recovered to 50 ℃ or more is installed. The mixed gas moving line 51 connecting between the first and second collection towers 30a and 30b and the organic solvent separation tank 50 allows the mixed gas to be introduced into the first and second collection towers 30a, It is preferable that the pump 52 for smoothly feeding the pressure from the 30b) to the separation tank 50 is installed. The solvent solution 61 accumulated in the lower portion of the organic solvent separation tank 50 is located in the middle of the pipeline 63 along the pipeline 63 installed up and down on the outer wall of the separation tank 50. By moving the pump 65 is installed to the upper portion of the organic solvent separation tank 50 is injected through the shower head 67 coupled to the pipeline 63 to shower the mixed gas.

The organic solvent separation tank 50 recovers or supplies a predetermined amount of solvent solution 61 from the organic solvent separation tank 50 to maintain the solvent solution 61 of the organic solvent separation tank 50 constant. Solvent solution amount adjusting means 80 is connected. The solvent solution amount adjusting means 80 is provided with a solvent solution transfer line 82 connecting the solvent solution reservoir 81 with the solvent solution reservoir 81 and the organic solvent separation tank 50. The organic solvent separation tank 50 enables the reuse of the solvent solution 61 by continuously recovering or supplying a predetermined amount of the solvent solution 61 from the organic solvent separation tank 50 along the solution transfer line 82. Keep the solvent solution constant.

As described above, according to the present invention, nitrogen gas is cleaned using nitrogen gas instead of conventional steam when regenerating the adsorption collector to regenerate and collect the organic solvent from the exhaust gas, and nitrogen gas is used by using a solvent solution. By separating and recovering the organic solvent and the existing solvent to avoid the installation of the steam to eliminate the secondary pollution source generated from the boiler and to reduce the size of the entire device effectively to prevent the expansion of the installation space.

Claims (2)

      Cooling means for cooling the exhaust gas obtained from the exhaust gas generating source containing the subject innovation below a predetermined temperature; A fan connected to the cooling means and configured to suck the exhaust gas cooled from the cooling means to move to the pair of collecting towers, and an exhaust gas moving line for connecting the fan and the collecting towers, respectively; Transfer means comprising first opening and closing means for opening and closing the exhaust gas moving line, respectively; Respectively connected to the exhaust gas moving line, and opening and closing the upper portion at the upper portion for adsorbing and collecting the organic solvent from the exhaust gas from the cooling means introduced by the first opening / closing means to be discharged to the outside through the upper portion. A pair of adsorptive collection towers each having a second opening and closing means for opening; Each of the first opening and closing means is closed and the second opening and closing means corresponding to the closed first opening and closing means is opened and closed through the opened second opening and closing means. Nitrogen gas supply means for supplying nitrogen gas for cleaning the adsorption-collected organic solvent to the collection tower connected to the first opening and closing means; It is connected between the nitrogen gas supply means and the collection towers, and the mixed gas mixed with the organic solvent and nitrogen gas purged from the collection tower received nitrogen gas from the nitrogen gas supply means and brought in An organic solvent separation tank for showering a mixed gas with a solvent solution previously stored therein, separating and precipitating the organic solvent from the mixed gas, and feeding back the separated nitrogen gas to the nitrogen gas supply means; And Is connected to the organic solvent separation tank, using a nitrogen gas that includes a solvent solution amount adjusting means for maintaining a constant amount of the solvent solution of the organic solvent separation tank by recovering or supplying a predetermined amount of solvent solution from the organic solvent separation tank A device for recovering volatile organic compounds in exhaust gas. The volatile organic compound in the exhaust gas using nitrogen gas according to claim 1, wherein a nitrogen gas heating means is further installed in the middle of the nitrogen gas recovery line connecting the nitrogen gas supply means and the collection towers. Recovery device.

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