KR102387292B1 - Exhaust gas treatment process system of after tenter added activated carbon filter and cyclone scrubber having rotary washing water supply means - Google Patents

Abstract

The present invention is a first heat exchanger that is connected to the rear end of the tenter to receive and exchange heat with high-temperature exhaust gas and recover waste heat, and the exhaust gas that has passed through the first heat exchanger is supplied to the inside, and washing water is supplied inside the inside. A cyclone scrubber for removing particulate matter, gaseous matter, and organic solvents contained in the exhaust gas by providing a rotary type washing water supply means for receiving and spraying it inside, and a cyclone scrubber provided at the lower part of the cyclone scrubber and discharged to the lower part of the cyclone scrubber A washing water tank that receives the washing water containing foreign substances inside and supplies the washing water to the cyclone scrubber, and a plurality of washing water tanks spaced apart from the washing water tank are provided, and each of which aims to remove non-aqueous gaseous substances inside each A chemical supply tank in which different chemicals are introduced and supplied to the inside of the washing tank, and a chemical supply tank connected to one side of the first heat exchanger to receive the exhaust gas that has passed through the cyclone scrubber to the inside, and to recover waste heat of the exhaust gas and exhaust gas through heat exchange A condensation heat exchanger for condensing moisture contained within, and a connection between the condensation heat exchanger and the first heat exchanger to receive exhaust gas from the condensation heat exchanger and separate and remove moisture in the exhaust gas inside the first heat exchanger A plurality of gas-water separators supplied to the , an electrostatic precipitator that recovers organic solvents by an electrostatic precipitation method by corona discharge, and is provided on the other side of the electrostatic precipitator to receive the exhaust gas passing through the electrostatic precipitator to the inside, and activated carbon is provided inside to remain on the exhaust gas An activated carbon filter unit that collects and removes designated odor substances, a blower connected to the other side of the activated carbon filter unit to promote the smooth movement of exhaust gas, and a blower connected to the blower to receive exhaust gas from the blower and discharge it to the outside Discharge tower, first heat exchanger, cyclone scrubber, washing water tank, chemical supply tank, condensation heat exchanger, electric dust collector, activated carbon filter unit, blower A plurality of sensors that are connected to each device to transmit a signal, and a first heat exchanger, a cyclone scrubber, a washing water tank, a chemical supply tank, a condensation heat exchanger, an electric dust collector, an activated carbon filter unit, a blower In the process system for treating exhaust gas at the rear end of the tenter to which a cyclone scrubber having an activated carbon filter unit comprising a control unit and a rotary washing water supply means is added to control the A first step of receiving exhaust gas from the inside of the first heat exchanger and heat-exchanging the temperature of the exhaust gas with any one of an air-cooled type or a water-cooled type to reduce the temperature and recover waste heat of the exhaust gas, the exhaust gas passing through the first heat exchanger A second step of supplying to the inside of the cyclone scrubber through a cyclone duct connected to the cyclone scrubber and having a first injection nozzle inside which the washing water supplied from the washing water tank is injected, and exhaust gas through the cyclone duct A plurality of rotating type washing water supply means for spraying the washing water supplied to the inside of the cyclone scrubber and sprayed from the first injection nozzle and the washing water provided inside the cyclone scrubber and supplied from the washing water tank, the filler (Pall ring) ) and the filter (demister), particulate matter, gaseous matter, and organic solvents contained in the exhaust gas fall and discharge to the lower part of the cyclone scrubber formed in a cone shape together with the washing water. In the third step of movement, the exhaust gas that has passed through the cyclone scrubber is supplied to the inside of the condensing heat exchanger, and the exhaust gas is exchanged with any one of an air cooling type or a water cooling type to recover waste heat of the exhaust gas and reduce the temperature of the exhaust gas, The exhaust gas is reduced in temperature and the particulate matter, gaseous material, and organic solvent contained in the exhaust gas are discharged to the lower part together with condensed water in which moisture is condensed in the exhaust gas; It is supplied to the inside and separates the moisture contained in the exhaust gas, as well as the separated moisture and particulate matter, In the fifth step of discharging gaseous substances and organic solvents to the lower part, the exhaust gas that has passed through the water separator is supplied to the inside of the first heat exchanger, and heat exchanges with the exhaust gas at 120 to 200° C. supplied from the rear end of the tenter to generate radix A sixth step of raising the temperature of the exhaust gas that has passed through the separator, and a plurality of exhaust gases that have passed through the water separator and the first heat exchanger are provided and supplied to the inside of the electrostatic precipitator connected in multiple stages, and are included in the exhaust gas through corona discharge In the seventh step of collecting and recovering the particulate matter, gaseous matter, and organic solvents, the exhaust gas that has passed through the electrostatic precipitator is supplied to the inside of the activated carbon filter unit having activated carbon inside, and remains on the exhaust gas that has passed through the electrostatic precipitator. The eighth step of collecting and removing the designated odorous substances from 9, the rotary type washing water supply means is spaced apart from the ground on the inside of the cyclone scrubber and is provided horizontally with the ground to be connected to the lower part of the main pipe to receive the washing water from the washing water tank. The washing water is supplied from the upper part, and a connecting pipe connected to the lower part of the main pipe is provided at the upper part, and the washing water is supplied to the inside through the connecting pipe at the lower part of the connecting pipe, and a rotary joint formed rotatably is provided. , The lower part of the rotary joint is provided with a pipe cross-connecting means provided to receive the washing water from the rotary joint and to be able to supply the washing water while rotating by the rotary joint, and on the outside of the pipe cross-connecting means, each side is A plurality of washing water spray pipes that are radially connected on the pipe cross connection means to receive the washing water from the pipe cross connection means and are sealed at the other side are provided, and at the lower part of each washing water jet pipe, there is a certain interval As a result, a plurality of holes are drilled in the shape of a long hole, and each of the spray holes formed to be inclined at a predetermined angle with respect to the longitudinal direction of the cleaning water spray pipe are formed. It is characterized in that the entire sapphire is automatically rotated by a rotary joint.

Description

Exhaust gas treatment process system of after tenter added activated carbon filter and cyclone scrubber having rotary washing water supply means

The present invention relates to a process system for treating exhaust gas at the rear end of a tenter to which a cyclone scrubber having an activated carbon filter unit and a rotating washing water supply unit is added, and a rotating washing water supply unit is provided on the cyclone scrubber and contained in the exhaust gas. In addition to more effectively collecting and removing particulate matter, gaseous matter, and organic solvents, an activated carbon filter unit is additionally provided at the rear end of the multi-stage electrostatic precipitator to add a designated odor substance remaining on the exhaust gas that has passed through the electrostatic precipitator. It relates to a process system for treating exhaust gas after a tenter to which a cyclone scrubber having an activated carbon filter unit and a rotary washing water supply means to be collected and removed by a furnace is added.

In general, a tenter (TENTER), also called an explosion machine (幅出機), is a device used as an ironing machine in industrial facilities in the dyeing industry.

The tenter as described above is stipulated as an air pollutant emission facility and a living odor control target facility in accordance with the Air Environment Conservation Act, so it is essential to have an air pollution prevention facility.

As an air pollution prevention facility for such tenters, only a granular activated carbon adsorption tower was initially installed, but this can be said to be a result of not considering the adsorption capacity of activated carbon according to temperature. The temperature that can be adsorbed is less than 40~50℃, and pollutants are not adsorbed to the activated carbon in the exhaust gas discharged at 120~170℃, which is the average temperature of the exhaust gas discharged from the tenter, but also due to the high temperature exhaust gas. There is a risk of igniting this.

In addition, it can be seen that it is very difficult to remove odor-causing substances from the exhaust gas of the tenter discharged at a high temperature only with activated carbon.

On the other hand, as a technology for improving the initial tenter air pollution prevention facility as described above, a technology has been developed in which a wet cleaning facility is added to the granular activated carbon adsorption tower to lower the temperature of exhaust gas, but these facilities are for the regeneration and replacement cycle of activated carbon Due to the short period of time, the difficulty of regeneration and replacement and cost problems, the activated carbon has been operated for more than 2 years without replacement. am.

At this time, the integrated tower type prevention facility formed integrally as described above has the advantages of low installation cost and good appearance, but foreign substances such as oil mist and baldness and brushing, which are moisture and highly viscous contaminants, are attached to the activated carbon and clogging occurs. In addition to frequent cases, oil mist was attached to ducts in addition to cleaning and adsorption facilities, causing pollution and causing problems such as fire.

As seen in the precedents above, most of the pollution prevention facilities were installed and operated only at the initial stage after investing a large amount of money, and then died due to mechanical, facility or management problems. There were many problems in its practicality because it was not continuously managed.

On the other hand, in order to solve the above problems, there is Patent Publication No. 10-1854113, which is a technology that the present applicant applied for and has been registered. Although the efficiency of collecting and removing waste was high, there was a problem that the maintenance and management cost was high.

In addition, in order to solve the above problems, the present applicant applied for a technology such as Patent Publication No. 10-2175549 and received a registration decision. In addition to the problem of contaminants adhering to the electric dust collector, there was also a problem in that odors were induced due to the presence of even a small amount of the designated odorous substances causing bad odors in the exhaust gas that passed through the electrostatic precipitator.

Accordingly, there is a demand for a process system for treating exhaust gas after a tenter to which a cyclone scrubber having an activated carbon filter unit and a rotating washing water supply means, which solves the above problems, is added.

1. Republic of Korea Patent Publication No. 10-1489190 2. Republic of Korea Patent Publication No. 10-1854113 3. Republic of Korea Patent Publication No. 10-2175549

The present invention was invented to solve the problems of the prior art as described above, and by evenly supplying the washing water using a rotary washing water supply means on the inside of the cyclone scrubber, the gaseous phase contained in the exhaust gas discharged from the rear end of the tenter It makes it easy to collect and remove pollutants, organic solvents, and particulate pollutants such as hair and hair, and also prevents pollutants from adhering to the inner bulkhead of the cyclone scrubber and on the exhaust gas that has passed through the electrostatic precipitator. To provide a process system for treating exhaust gas at the rear end of a tenter with a cyclone scrubber having an activated carbon filter unit and a rotary washing water supply means that can easily collect and remove designated odor substances that cause odors remaining in a trace amount. There is this.

In order to achieve the above object, the present invention provides a first heat exchanger connected to the rear end of a tenter to receive high-temperature exhaust gas and exchange heat while recovering waste heat, and the exhaust gas passing through the first heat exchanger is supplied to the inside. In addition, a cyclone scrubber for removing particulate matter, gaseous matter, and organic solvents contained in exhaust gas is provided on the inside of the rotating cleaning water supply means for receiving the cleaning water from the outside and spraying it inside, and it is provided at the bottom of the cyclone scrubber A washing water tank that receives the washing water containing foreign substances discharged into the lower part of the cyclone scrubber and supplies the washing water to the cyclone scrubber, and a washing water tank spaced apart from the washing water tank. A chemical supply tank in which different chemicals for the removal of gaseous substances are introduced and supplied to the inside of the washing tank, and a chemical supply tank connected to one side of the first heat exchanger to receive the exhaust gas passing through the cyclone scrubber inside and through heat exchange A condensation heat exchanger for recovering waste heat of exhaust gas and condensing moisture contained in the exhaust gas, and a connection between the condensation heat exchanger and the first heat exchanger to receive exhaust gas from the condensation heat exchanger and separate and separate moisture from the exhaust gas A water separator that is removed and supplied to the inside of the first heat exchanger, and a plurality of multiple connections are provided on the other side of the first heat exchanger in multiple stages to receive the exhaust gas heated through the inside of the first heat exchanger and supplied to the inside as well as exhaust gas An electrostatic precipitator that recovers particulate matter, gaseous matter, and organic solvents contained within by an electrostatic precipitation method by corona discharge, is provided on the other side of the electrostatic precipitator to receive exhaust gas passing through the electrostatic precipitator to the inside, and activated carbon inside an activated carbon filter unit for collecting and removing specified odor substances remaining on the exhaust gas, a blower connected to the other side of the activated carbon filter unit for smooth movement of exhaust gas, and connected to the blower to exhaust from the blower An exhaust tower for receiving gas and discharging it to the outside, a first heat exchanger, a cyclone scrubber, a washing water tank, a chemical supply tank, and a condensation heat exchanger , an electric dust collector, an activated carbon filter unit, a blower, and a plurality of sensors that transmit signals, a first heat exchanger, a cyclone scrubber, a washing water tank, a chemical supply tank, a condensation heat exchanger In the process system for treating exhaust gas after the tenter is added a cyclone scrubber having an activated carbon filter unit comprising a control unit provided for controlling an electric dust collector, an activated carbon filter unit, and a blower and a rotary washing water supply unit, the tenter The first step of receiving the exhaust gas of 120 ~ 200 ℃ supplied from the rear end to the inside of the first heat exchanger and heat-exchanging the temperature of the exhaust gas with any one selected from the air-cooled type or the water-cooled type to reduce the temperature and recover the waste heat of the exhaust gas; , a second step of supplying the exhaust gas passing through the first heat exchanger to the inside of the cyclone scrubber through a cyclone duct that is provided on the cyclone scrubber and has a first injection nozzle inside which the washing water supplied from the washing water tank is injected; , A plurality of rotating types that receive exhaust gas through the cyclone duct to the inside of the cyclone scrubber and spray the washing water sprayed from the first injection nozzle and the washing water provided inside the cyclone scrubber and supplied from the washing water tank Particulate substances, gaseous substances, and organic solvents contained in the exhaust gas due to the washing water supply means, the filler (Pall ring) and the filter (Demister) fall and discharge to the lower part of the cyclone scrubber formed in a cone shape together with the washing water. , the exhaust gas is vortexed and moved upward in the third step, and the exhaust gas that has passed through the cyclone scrubber is supplied to the inside of the condensing heat exchanger, and waste heat of the exhaust gas is recovered by exchanging the exhaust gas with an air-cooled or water-cooled type. a fourth step of reducing the temperature of the exhaust gas, the exhaust gas is reduced in temperature, and particulate matter, gaseous matter, and organic solvents contained in the exhaust gas are discharged to the lower part together with condensed water in which moisture is condensed in the exhaust gas; and the heat of condensation The exhaust gas that has passed through the exchanger is supplied to the inside of the water separator, and it separates the moisture contained in the exhaust gas. In the fifth step of discharging particulate matter, gaseous matter, and organic solvents to the lower part along with the separated moisture, the exhaust gas passing through the water separator is supplied to the inside of the first heat exchanger, and 120~ supplied from the rear end of the tenter A sixth step of raising the temperature of the exhaust gas that has passed through the water separator by exchanging heat with the exhaust gas at 200 ° C. A plurality of exhaust gases that have passed through the water separator and the first heat exchanger are provided and supplied to the inside of the electric dust collector connected in multiple stages. , a seventh step of collecting and recovering particulate matter, gaseous matter, and organic solvents contained in the exhaust gas through corona discharge, and the exhaust gas that has passed through the electric precipitator is supplied to the inside of the activated carbon filter unit equipped with activated carbon inside An eighth step of collecting and removing designated odor substances remaining on the exhaust gas that has passed through the electrostatic precipitator; It is made including a ninth step of discharging to the outside through the discharge tower, wherein the rotary washing water supply means is spaced apart from the ground on the inside of the cyclone scrubber and is provided horizontally with the ground to receive the washing water from the washing water tank It is connected to the lower part of the pipe to receive washing water from the main pipe, and the upper part is provided with a connecting pipe connected to the lower part of the main pipe, and the lower part of the connecting pipe is supplied with washing water to the inside through the connecting pipe and rotates. A rotary joint that is formed possible is provided, and a pipe cross connection means is provided at the lower part of the rotary joint to receive washing water from the rotary joint and to supply washing water while rotating by the rotary joint. On the outside of the connecting means, a plurality of washing water spray pipes, each of which one side is radially connected on the pipe cross connecting means, is supplied with the washing water from the pipe cross connecting means, and the other side is sealed, is provided, and each washing In the lower part of the water spray pipe, a plurality of each are drilled in a long hole shape at regular intervals, and each of the spray holes formed to be inclined at a predetermined angle with respect to the longitudinal direction of the washing water spray pipe are formed. Treatment of exhaust gas at the rear end of the tenter with an activated carbon filter unit and a cyclone scrubber having a rotary type washing water supply means, characterized in that the entire washing water injection pipe is automatically rotated by a rotary joint when washing water is sprayed through the injection hole process system.

The exhaust gas treatment system at the rear end of the tenter to which a cyclone scrubber having an activated carbon filter unit and a rotating washing water supply means is added according to the present invention as described above includes a first heat exchanger and a cyclone scrubber having a rotating washing water supply unit; , a washing water tank, a chemical supply tank, a condensation heat exchanger, a water separator, an electrostatic precipitator, an activated carbon filter unit, a blower, a discharge tower, a plurality of sensors and a control unit. By evenly supplying the washing water using the supply means, it is possible to easily collect and remove gaseous pollutants, organic solvents, and particulate pollutants such as hair and hairs contained in the exhaust gas discharged from the rear end of the tenter. Contaminants do not adhere to the inner bulkhead of the cyclone scrubber, and it is possible to easily collect and remove designated odor substances that cause odors that remain in a trace amount on the exhaust gas that has passed through the electrostatic precipitator. As a result, the energy saving effect is also excellent, and the water contained in the exhaust gas is separated and removed by the water separator and the first heat exchanger, and the remaining water also becomes saturated water vapor due to the heat exchange, resulting in corona discharge from the electric dust collector. Short circuit due to moisture contained in exhaust gas is also effective to prevent.

1 is a schematic diagram of a process system for treating exhaust gas at the rear end of a tenter to which a cyclone scrubber having an activated carbon filter unit and a rotary washing water supply means according to the present invention is added;
2 to 5 are schematic views of a part of a process system for treating exhaust gas after a tenter to which a cyclone scrubber having an activated carbon filter unit and a rotary washing water supply means according to the present invention is added;
6 is a block diagram of a process system for treating exhaust gas after a tenter to which a cyclone scrubber having an activated carbon filter unit and a rotating washing water supply means according to the present invention is added.

Hereinafter, specific contents for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

1 to 6, the present invention provides a first heat exchanger (10) connected to the rear end of a tenter to receive high-temperature exhaust gas and exchange heat while recovering waste heat, and a first heat exchanger (10). A rotary type washing water supply means 12 that receives the exhaust gas that has passed through is supplied to the inside, and receives washing water from the outside and sprays it inside, so that particulate matter, gaseous substances, and organic solvents contained in the exhaust gas are removed. The cyclone scrubber 14 to remove and the washing water provided in the lower part of the cyclone scrubber 14 and containing foreign substances discharged to the lower part of the cyclone scrubber 14 are supplied to the inside, and the washing water is supplied to the cyclone scrubber 14 The washing water tank 16 supplied to the It is connected to one side of the chemical supply tank 18 and the first heat exchanger 10 to receive the exhaust gas that has passed through the cyclone scrubber 14 to the inside, and also recovers waste heat of the exhaust gas through heat exchange and includes it in the exhaust gas The condensing heat exchanger 20 for condensing the collected moisture and the condensing heat exchanger 20 and the first heat exchanger 10 are connected to each other to receive the exhaust gas from the condensation heat exchanger 20 and to remove moisture in the exhaust gas. The water separator 22 is separated and removed and supplied to the inside of the first heat exchanger 10, and a plurality of them are connected to the other side of the first heat exchanger 10 in multiple stages to cut the inside of the first heat exchanger 10. The electrostatic precipitator 24, which receives the exhaust gas that has been heated through and is supplied to the inside, and recovers particulate matter, gaseous matter, and organic solvents contained in the exhaust gas by an electric dust collection method by corona discharge, and the electric dust collector 24 An activated carbon filter unit 26 provided on the other side to receive the exhaust gas that has passed through the electric precipitator 24 to the inside, and an activated carbon inside to collect and remove designated odor substances remaining on the exhaust gas, and activated carbon It is connected to the other side of the filter unit 26 so that the exhaust gas is smoothly discharged. A blower 28 for moving, a discharge tower 30 connected to the blower 28 to receive exhaust gas from the blower 28 and discharge to the outside, a first heat exchanger 10, a cyclone scrubber ( 14), a washing water tank 16, a chemical supply tank 18, a condensation heat exchanger 20, an electric dust collector 24, an activated carbon filter unit 26, and a blower 28. A plurality of sensors each connected to and transmitting a signal 32 and the sensor 32 are connected to each and receive a signal as well as a first heat exchanger 10, a cyclone scrubber 14, a washing water tank 16, a chemical supply tank 18, a condensation heat exchanger 20 ), an activated carbon filter unit comprising a control unit 34 provided to control the electric dust collector 24, the activated carbon filter unit 26, and the blower 28, and a cyclone scrubber having a rotary washing water supply means is added. In the process system for treating exhaust gas at the rear end of the tenter, the exhaust gas of 120 to 200° C. supplied from the rear end of the tenter is supplied to the inside of the first heat exchanger 10, and the temperature of the exhaust gas is exchanged with any one selected from among air cooling or water cooling. The first step of reducing the temperature and recovering the waste heat of the exhaust gas, and the exhaust gas that has passed through the first heat exchanger 10 is connected to the cyclone scrubber 14 and the cleaning supplied from the washing water tank 16 The second step of supplying the inside of the cyclone scrubber 14 through the cyclone duct 38 having the first injection nozzle 36 inside which water is injected, and the exhaust gas through the cyclone duct 38 are supplied to the cyclone scrubber ( 14) supplied to the inside, as well as the washing water sprayed from the first injection nozzle 36, and a plurality of rotating type washing water provided inside the cyclone scrubber 14 to spray the washing water supplied from the washing water tank. Due to the means 12, the filler (Pall ring) and the filter (Demister), particulate matter, gaseous matter, and organic solvents contained in the exhaust gas fall to the lower part of the cyclone scrubber 14, which is formed in a conical shape together with the washing water. And discharged, the exhaust gas is vortexed and moved upwards in a third step, and the cyclone scrubber The exhaust gas passing through (14) is supplied to the inside of the condensing heat exchanger (20), and the exhaust gas is heat-exchanged using either an air cooling type or a water cooling type to recover waste heat of the exhaust gas, and also reduce the temperature of the exhaust gas, and the exhaust gas is temperature reduced and a fourth step in which particulate matter, gaseous matter, and organic solvents contained in the exhaust gas are discharged to the lower part together with condensed water in which moisture is condensed in the exhaust gas; ), a fifth step of separating moisture contained in exhaust gas and discharging particulate matter, gaseous matter, and organic solvent together with the separated moisture to the lower part; A sixth step of receiving the exhaust gas into the first heat exchanger 10 and exchanging heat with the exhaust gas of 120 to 200° C. supplied from the rear end of the tenter to raise the temperature of the exhaust gas that has passed through the water separator 22; A plurality of exhaust gases that have passed through the separator 22 and the first heat exchanger 10 are provided and supplied to the inside of the electrostatic precipitator 24 connected in multiple stages, and particulate matter and gaseous substances contained in the exhaust gas through corona discharge In the seventh step of collecting and recovering substances and organic solvents, the exhaust gas passing through the electrostatic precipitator 24 is supplied to the inside of the activated carbon filter unit 26 having activated carbon inside, and the exhaust gas passing through the electrostatic precipitator phase In the eighth step of collecting and removing the designated odor substances remaining in the It consists of a ninth step of discharging to the outside through the discharge tower (30).

First, a first heat exchanger 10 connected to the rear end of the tenter to receive high-temperature exhaust gas to exchange heat and to recover waste heat is provided.

In this case, the first heat exchanger 10 is a tube type heat exchanger, an open liquid film type heat exchanger, a middle tube type heat exchanger, a cylindrical shell-and-tube type heat exchanger, a jacket type heat exchanger, a vortex type heat exchanger, from the group consisting of a plate type heat exchanger. Any one selected is used, and when the inside of the first heat exchanger 10 is formed of a plurality of tubes, the shape of the tube may be variously formed as a spiral tube or a fin tube, and the first heat exchanger (10) Even when the inside is formed of a plurality of flat plates, the shape of the flat plate may be variously formed in a corrugated or concave-convex shape.

In addition, on the inner side of the first heat exchanger (10), hot water or steam is supplied from the outside and supplied to the inside of the first heat exchanger (10) to facilitate cleaning of the inside of the first heat exchanger (10). The nozzle 58 is provided and used, and hot water or steam is continuously supplied to the inside of the first heat exchanger 10 or hot water or steam is intermittently supplied to the first heat exchanger under the control of the controller 34 to be described later. By supplying to the inside of (10), the inside of the first heat exchanger (10) is always clean, and the heat exchange efficiency of the first heat exchanger (10) is also maintained.

Meanwhile, a sensor 32 , which will be described later, is provided on the first heat exchanger 10 to transmit the state and information inside the first heat exchanger 10 to the control unit 34 .

In addition to receiving the exhaust gas that has passed through the first heat exchanger 10 to the inside, a rotary washing water supply means 12 for receiving the washing water from the outside and spraying it inside is provided inside the exhaust gas. A cyclone scrubber 14 for removing particulate matter, gaseous matter, and organic solvents is provided.

At this time, the rotary type washing water supply means 12 is provided on the inside of the cyclone scrubber 14 to be spaced apart from the ground and horizontal to the ground as in FIGS. 3 to 5 to supply the washing water from the washing water tank 16 . It is connected to the lower portion of the receiving main tube 42 to receive washing water from the main tube 42 , and a connecting tube 44 connected to the lower portion of the main tube 42 is provided on the upper portion, and the connecting tube 44 A rotary joint 46 that is rotatably formed while receiving the washing water inward through the connection pipe 44 is provided at the lower portion of the rotary joint 46 In addition to receiving the supply, a pipe cross-connection means 48 is provided that enables the supply of washing water while rotating by the rotary joint 46 is provided, and on the outside of the pipe cross-connection means 48, one side of each pipe cross-connection is provided. A plurality of washing water spray pipes 50 that are radially connected on the means 48 to receive the washing water from the pipe cross connection means 48 and are sealed at each other side are provided, each of the washing water spray pipes In the lower portion of (50), a plurality of each are perforated in a long hole shape at regular intervals, and each of the spray holes 52 formed to be inclined at a predetermined angle with respect to the longitudinal direction of the washing water spray pipe 50 are formed and spray holes ( 52), the entire washing water injection pipe 50 is automatically rotated by the rotary joint 46, and the washing water is sprayed while rotating, thereby efficiently spraying the washing water over a larger area While being able to do this, since the washing water is sprayed at a high pressure, the contaminants do not stick to the inner partition of the cyclone scrubber 14 as well.

In addition, on each of the washing water injection pipes 50 of the rotary type washing water supply means 12, one end is vertically connected to the washing water injection pipe 50 and the other end is sealed on the washing water branch pipe 54 is provided with a connection, and a plurality of long holes are drilled at regular intervals in the lower portion of the washing water branch pipe 54, and each branch is formed to be inclined at a predetermined angle with respect to the longitudinal direction of the washing water branch pipe 54. It is obvious that the hole 56 may be formed and used, and when the washing water branch pipe 54 is provided and used, a higher rotational force and cleaning efficiency are higher than when the washing water spray pipe 50 is used alone. will be.

On the other hand, the injection hole 52 and the branch injection hole 56 may be respectively formed in a long hole shape or may be formed with a plurality of through holes in the range of the long hole shape, and a conventional nozzle may be connected and used. .

And, on the cyclone scrubber 14, a first injection nozzle 36, a cyclone duct 38, a rotary washing water supply means 12, a filler (Pall ring) and a filter (Demister) to be described later are provided, As the exhaust gas passes through the cyclone duct 38 having the first injection nozzle 36, which is a narrow passage, and is intensively supplied with atomized high-pressure washing water, particulate matter, gaseous matter, and organic solvents contained in the exhaust gas are conical. It falls and is discharged to the lower part of the cyclone scrubber 14 formed of ring) and filter (demister), it is possible to more efficiently remove and recover particulate matter, gaseous matter, and organic solvents, which are foreign substances contained in exhaust gas.

On the other hand, the exhaust gas inside the cyclone scrubber 14 increases the vortex phenomenon due to the cyclone duct 38 connected and formed on the cyclone scrubber 14 as shown in FIG. 2 , and thereby particulate matter contained in the exhaust gas , gaseous substances and organic solvents are more easily collected and discharged.

In addition, a sensor 32 to be described later is provided on the cyclone scrubber 14 to transmit the state and information of the cyclone scrubber 14 to the controller 34 .

The washing water tank 16 provided at the lower part of the cyclone scrubber 14 and receiving the washing water containing foreign substances discharged to the lower part of the cyclone scrubber 14 inside and supplying the washing water to the cyclone scrubber 14 ) and the washing water tank 16 and provided with a plurality of chemical supply tanks (18) for supplying to the inside of the cleaning water tank (16), each of which is provided with a plurality of different chemicals to promote the removal of insoluble gaseous substances. ) is provided.

At this time, a water level measuring sensor 64 (not shown) that measures the level of the washing water and transmits it to the control unit 34 is provided on the washing water tank 16 and between the washing water tank 16 and the cyclone scrubber 14 is cleaned It is desirable to have a float sensor 66 (not shown) that measures the water supply and transmits it to the control unit 34 .

In addition, on the outside spaced apart from the washing water tank 16, it is connected to the washing water tank 16 and receives the washing water containing oil from the washing water tank 16 to separate the oil from the washing water and collect the oil. It is more preferable that the oil-water separator 62 of the illustrated belt or screw type is provided, and the oil separated by the oil-water separator 62 is reused as a leather fatliquoring agent or the like.

In addition, each of the chemical supply tanks 18 is provided with a metering pump 60 for supplying a certain amount of chemicals to the washing water tank 16, and inside each of the chemical supply tanks 18, water, ammonium hydroxide, Sodium hydroxide, potassium hydroxide, hydrogen peroxide, nitric acid, acetic acid, hydrochloric acid, phosphoric acid, sodium carbonate, and sulfuric acid are optionally provided with one or a mixture of two or more chemicals used to collect insoluble foreign substances in gaseous substances will be.

It is connected to one side of the first heat exchanger 10 to receive the exhaust gas that has passed through the cyclone scrubber 14 to the inside, and to recover waste heat of the exhaust gas through heat exchange and to condense moisture contained in the exhaust gas A condensation heat exchanger 20 is provided.

At this time, the condensing heat exchanger 20 is selected from the group consisting of a tube type heat exchanger, an open liquid film type heat exchanger, a middle tube type heat exchanger, a cylindrical shell type heat exchanger, a jacket type heat exchanger, a vortex type heat exchanger, and a plate type heat exchanger. One is used, and when the inside of the condensation heat exchanger 20 is formed of a plurality of pipes, the shape of the pipe can be variously formed as a spiral tube or a fin tube, and the inside of the condensation heat exchanger 20 is a plurality Even when it is formed as a flat plate, the shape of the flat plate may be variously formed in a corrugated or concave-convex shape.

In addition, on the inner side of the condensing heat exchanger 20, a washing spray nozzle 58 for receiving hot water or steam from the outside and supplying it to the inside of the condensing heat exchanger 20 to clean the inside of the condensing heat exchanger 20 is provided. By the control of the control unit 34 to be described later, hot water or steam is continuously supplied to the inside of the condensation heat exchanger 20, or hot water or steam is intermittently supplied to the inside of the condensation heat exchanger 20, so that the condensation heat exchanger ( 20) The inside is always clean and the heat exchange efficiency of the condensation heat exchanger 20 is also maintained.

On the other hand, a sensor 32 to be described later is provided on the condensation heat exchanger 20 to transmit the state and information of the inside of the condensation heat exchanger 20 to the control unit 34 .

The connection is provided between the condensation heat exchanger 20 and the first heat exchanger 10 to receive the exhaust gas from the condensation heat exchanger 20, and separate and remove moisture in the exhaust gas of the first heat exchanger 10 A water separator 22 for supplying to the inside is provided.

At this time, the water separator 22 may be formed in various shapes.

A plurality of the other side of the first heat exchanger 10 are connected in multiple stages to receive the exhaust gas heated through the inside of the first heat exchanger 10 and supplied to the inside as well as particulate matter and gaseous substances contained in the exhaust gas. An electric dust collector 24 is provided for recovering materials, oil mist, and organic solvents such as VOCs by an electric dust collecting method by corona discharge.

At this time, as shown in FIG. 1 , a plurality of the electric dust collectors 24 are connected in series to the other side of the first heat exchanger 10 in multiple stages, or a plurality of the electric dust collectors 24 are used in multiple stages on the other side of the first heat exchanger 10 . It can also be used in parallel connection.

In addition, on the inside of the electrostatic precipitator 24, a washing spray nozzle 58 for receiving hot water or steam from the outside and supplying it to the inside of the electrostatic precipitator 24 to clean the inside of the electrostatic precipitator 24 is provided and used. The power is cut off under the control of the controller 34 to be described later, and hot water or steam is intermittently supplied to the inside of the electrostatic precipitator 24 to promote the cleanliness of the inside of the electrostatic precipitator 24 .

On the other hand, a sensor 32 , which will be described later, is provided on the electric dust collector 24 to transmit the state and information inside the electric dust collector 24 to the control unit 34 .

Activated carbon provided on the other side of the electric dust collector 24 to receive the exhaust gas passing through the electric dust collector 24 to the inside, and activated carbon is provided inside the activated carbon to collect and remove designated odor substances remaining on the exhaust gas A filter unit 26 is provided.

At this time, the activated carbon provided on the inside of the activated carbon filter unit 26 may be any one or a mixture of two or more from the group consisting of vapor adsorption, liquid adsorption, catalyst, and impregnated activated carbon, and the pore structure of the activated carbon is composed of micropores, mesopores, and macropores.

On the other hand, the activated carbon filter unit 26 is replaced and used according to a certain period or operating time, and is formed and provided so that it can be easily mounted or detached.

And, at the rear end of the activated carbon filter unit 26, the exhaust gas that has passed through the activated carbon filter unit 26 is supplied to the inside, and the exhaust gas is heat-exchanged with any one selected from an air cooling type or a water cooling type to reduce the temperature of the exhaust gas to 25 to 45 ° C. In addition, a second heat exchanger 40 for condensing and discharging moisture contained in the exhaust gas to the outside, exhausting the exhaust gas with reduced white smoke, and recovering waste heat of the exhaust gas is provided.

At this time, the second heat exchanger 40 is provided to prevent the white smoke phenomenon of the exhaust gas discharged to the outside through the discharge tower 30 to be described later. Any one selected from the group consisting of a machine, a cylindrical shell-and-tube type heat exchanger, a jacket type heat exchanger, a vortex type heat exchanger, and a plate type heat exchanger is used, and when the inside of the second heat exchanger 40 is formed of a plurality of pipes, In addition to that the shape of the tube body can be formed in a variety of ways, such as a spiral tube or a fin tube, the shape of the flat plate is variously varied such as a corrugated or concave-convex shape even when the inside of the second heat exchanger 40 is formed of a plurality of flat plates. that can be formed.

In addition, on the inner side of the second heat exchanger (40), a washing spray nozzle ( 58) is provided and used, and only when cleaning of the second heat exchanger 40 is required by the control of the control unit 34 to be described later, hot water or steam is intermittently supplied to the inside of the second heat exchanger 40. Therefore, the inside of the second heat exchanger 40 is always clean, and the heat exchange efficiency of the second heat exchanger 40 is also maintained.

On the other hand, a sensor 32 to be described later is provided on the second heat exchanger 40 to transmit the state and information inside the second heat exchanger 40 to the control unit 34 .

A blower 28 is provided connected to the other side of either the activated carbon filter unit 26 or the second heat exchanger 40 to promote smooth movement of exhaust gas.

At this time, the exhaust gas supplied to the blower 28 is supplied with exhaust gas from which particulate matter, gaseous materials, organic solvents and moisture have been removed, so that not only the occurrence of malfunction of the blower 28 is remarkably reduced, but also easy maintenance there is an advantage.

In addition, a sensor 32 (not shown) that measures the rotation speed of the blower 28 and transmits it to the control unit 34 is provided on the blower 28 and used.

The exhaust tower 30 that is provided in connection with the blower 28 to receive exhaust gas from the blower 28 and discharge it to the outside, the first heat exchanger 10, the cyclone scrubber 14, and the washing water tank 16 , a chemical supply tank 18, a condensation heat exchanger 20, an electric dust collector 24, an activated carbon filter unit 26, a second heat exchanger 40, and a plurality of sensors that are respectively connected to the blower 28 to transmit signals 32 and the sensor 32 are connected to each and receive a signal as well as a first heat exchanger 10, a cyclone scrubber 14, a washing water tank 16, a chemical supply tank 18, a condensation heat exchanger 20 ), an electric dust collector 24 , an activated carbon filter unit 26 , a second heat exchanger 40 , and a control unit 34 provided to control the blower 28 .

On the other hand, the washing spray nozzle 58 is used for washing and may be used for suppressing the fire by spraying water or extinguishing liquid when a fire occurs.

In addition, on the exhaust gas treatment process system at the rear end of the tenter to which a cyclone scrubber having an activated carbon filter unit and a rotary washing water supply means according to the present invention is added, a cooling tower 68 for cooling the cooling water after heat exchange as in FIG. 1 . and a clean-up tank 70 for cleaning the electric dust collector 24 may be provided and used.

At this time, the clean-up tank 70 has a plurality of spaces that can be accommodated on the inside due to the partition wall, and steam, hot water, or washing water is selectively supplied to each space, and is seated inside the clean-up tank 70 for washing. The electrostatic precipitator 24 is to be cleaned.

On the other hand, the sequence of the exhaust gas treatment system after the tenter to which a cyclone scrubber having an activated carbon filter unit and a rotary washing water supply means according to the present invention is added is as follows.

The exhaust gas of 120 ~ 200 ℃ supplied from the rear end of the tenter is supplied to the inside of the first heat exchanger 10, the temperature of the exhaust gas is exchanged with any one selected from the air cooling type or the water cooling type to reduce the temperature and recover the waste heat of the exhaust gas (Step S1)

At this time, the exhaust gas inside the first heat exchanger 10 is heat-exchanged from 120 to 200 ° C to 70 to 90 ° C. At this time, the used cooling water is supplied and utilized where hot water is required or supplied to the cooling tower 68 and will be cooled.

A cyclone duct ( 38) to the inside of the cyclone scrubber 14. (Step S2)

The exhaust gas is supplied to the inside of the cyclone scrubber 14 through the cyclone duct 38, and the washing water sprayed from the first injection nozzle 36 and the cyclone scrubber 14 are provided inside the washing water tank. Particulate substances, gaseous substances, and organic solvents contained in the exhaust gas due to a plurality of rotating washing water supply means 12 that spray the supplied washing water, a filler (Pall ring) and a filter (Demister) together with the washing water It falls and is discharged to the lower part of the cyclone scrubber 14 formed in a conical shape, and the exhaust gas is vortexed and moved to the upper part. (Step S3)

At this time, the rotary type washing water supply means 12 is provided on the inside of the cyclone scrubber 14 to be spaced apart from the ground and horizontal to the ground as in FIGS. 3 to 5 to supply the washing water from the washing water tank 16 . It is connected to the lower portion of the receiving main tube 42 to receive washing water from the main tube 42 , and a connecting tube 44 connected to the lower portion of the main tube 42 is provided on the upper portion, and the connecting tube 44 A rotary joint 46 that is rotatably formed while receiving the washing water inward through the connection pipe 44 is provided at the lower portion of the rotary joint 46 In addition to receiving the supply, a pipe cross-connection means 48 is provided that enables the supply of washing water while rotating by the rotary joint 46 is provided, and on the outside of the pipe cross-connection means 48, one side of each pipe cross-connection is provided. A plurality of washing water spray pipes 50 that are radially connected on the means 48 to receive the washing water from the pipe cross connection means 48 and are sealed at each other side are provided, each of the washing water spray pipes In the lower portion of (50), a plurality of each are perforated in a long hole shape at regular intervals, and each of the spray holes 52 formed to be inclined at a predetermined angle with respect to the longitudinal direction of the washing water spray pipe 50 are formed and spray holes ( 52), the entire washing water injection pipe 50 is automatically rotated by the rotary joint 46, and the washing water is sprayed while rotating, thereby efficiently spraying the washing water over a larger area While being able to do this, since the washing water is sprayed at a high pressure, the contaminants do not stick to the inner partition of the cyclone scrubber 14 as well.

In addition, on each of the washing water injection pipes 50 of the rotary type washing water supply means 12, one end is vertically connected to the washing water injection pipe 50 and the other end is sealed on the washing water branch pipe 54 is provided with a connection, and a plurality of long holes are drilled at regular intervals in the lower portion of the washing water branch pipe 54, and each branch is formed to be inclined at a predetermined angle with respect to the longitudinal direction of the washing water branch pipe 54. It is obvious that the hole 56 may be formed and used, and when the washing water branch pipe 54 is provided and used, a higher rotational force and cleaning efficiency are higher than when the washing water spray pipe 50 is used alone. will be.

On the other hand, the injection hole 52 and the branch injection hole 56 may be respectively formed in a long hole shape or may be formed with a plurality of through holes in the range of the long hole shape, and a conventional nozzle may be connected and used. .

And, on the cyclone scrubber 14, a first injection nozzle 36, a cyclone duct 38, a rotary washing water supply means 12, a filler (Pall ring) and a filter (Demister) to be described later are provided, As the exhaust gas passes through the cyclone duct 38 having the first injection nozzle 36, which is a narrow passage, and is intensively supplied with atomized high-pressure washing water, particulate matter, gaseous matter, and organic solvents contained in the exhaust gas are conical. It falls and is discharged to the lower part of the cyclone scrubber 14 formed of ring) and filter (demister), it is possible to more efficiently remove and recover particulate matter, gaseous matter, and organic solvents, which are foreign substances contained in exhaust gas.

On the other hand, the exhaust gas inside the cyclone scrubber 14 increases the vortex phenomenon due to the cyclone duct 38 connected and formed on the cyclone scrubber 14 as shown in FIG. 2 , and thereby particulate matter contained in the exhaust gas , gaseous substances and organic solvents are more easily collected and discharged.

In addition, a sensor 32 to be described later is provided on the cyclone scrubber 14 to transmit the state and information of the cyclone scrubber 14 to the controller 34 .

The exhaust gas at 50 to 70° C. that has passed through the cyclone scrubber 14 is supplied to the inside of the condensing heat exchanger 20, and heat exchanges the exhaust gas with any one of an air cooling type or a water cooling type to recover waste heat of the exhaust gas and exhaust gas temperature is reduced to 40~60℃, the exhaust gas is reduced in temperature, and particulate matter, gaseous matter, and organic solvents contained in the exhaust gas are discharged to the bottom together with the condensed water in which moisture is condensed in the exhaust gas. (Step S4)

The exhaust gas that has passed through the condensing heat exchanger 20 is supplied to the inside of the water separator 22, and the moisture contained in the exhaust gas is separated, and particulate matter, gaseous matter, and organic solvents are lowered together with the separated moisture. Discharge. (Step S5)

At this time, the condensed water and moisture generated in the condensing heat exchanger 20 and the water separator 22 are supplied to the washing water tank 16 .

The exhaust gas that has passed through the water separator 22 is supplied to the inside of the first heat exchanger 10, and heat exchanges with the exhaust gas at 120 to 200° C. supplied from the rear end of the tenter to reduce the exhaust gas passing through the water separator 22 to 50 Raise the temperature to ~70℃. (Step S6)

A plurality of exhaust gases passing through the water separator 22 and the first heat exchanger 10 are provided and supplied to the inside of the electrostatic precipitator 24 connected in multiple stages, and particulate matter contained in the exhaust gas through corona discharge , gaseous substances, oil mist, and organic solvents such as VOCs are collected and recovered. (Step S7)

The exhaust gas that has passed through the electrostatic precipitator 24 is supplied to the inside of the activated carbon filter unit 26 having activated carbon therein, and a designated odor substance remaining on the exhaust gas that has passed through the electrostatic precipitator is collected and removed. (Step S8) )

Exhaust gas from which particulate matter, gaseous matter, organic solvents, and designated odor substances have been removed that has passed through the activated carbon filter unit 26 is discharged to the outside through the exhaust tower 30 through the blower 28. (Step S9)

Meanwhile, between the activated carbon filter unit 26 and the blower 28, the exhaust gas is heat-exchanged with any one selected from an air-cooled type or a water-cooled type to reduce the temperature of the exhaust gas to 25 to 45° C. It is preferable that the second heat exchanger 40 for discharging the exhaust gas with reduced white smoke is provided and used.

The exhaust gas treatment system at the rear end of the tenter to which a cyclone scrubber having an activated carbon filter unit and a rotating washing water supply means is added according to the present invention as described above includes the first heat exchanger 10 and the rotating washing water supply means. A cyclone scrubber 14 having (12), a washing water tank (16), a chemical supply tank (18), a condensation heat exchanger (20), a water separator (22), an electric dust collector (24), and an activated carbon filter Unit 26, a blower 28, a discharge tower 30, a plurality of sensors 32, and a rotary washing water supply means 12 on the inside of the cyclone scrubber 14 due to the control unit 34 By evenly supplying washing water using Contaminants do not adhere to the inner partition wall of (14) as well, and designated odor substances causing odor remaining in a trace amount on the exhaust gas that has passed through the electrostatic precipitator 24 can also be easily collected and removed, and waste heat of the exhaust gas In addition, the energy saving effect is also excellent because it is recovered and reused, and the water contained in the exhaust gas is separated and removed by the water separator 22 and the first heat exchanger 10, and the remaining water and the particles of the water are heat exchanged. Due to the saturated water vaporization, short circuit due to moisture contained in exhaust gas during corona discharge in the electric precipitator 24 is also prevented, and white smoke caused by exhaust gas is also prevented due to the second heat exchanger 40 . there will be

10: first heat exchanger 12: rotary washing water supply means
14: cyclone scrubber 16: washing water tank
18: chemical supply tank 20: condensing heat exchanger
22: water separator 24: electric dust collector
26: activated carbon filter unit 28: blower
30: exhaust tower 32: sensor
34: control unit 36: first injection nozzle
38: cyclone duct 40: second heat exchanger
42: main pipe 44: connector pipe
46: rotary joint 48: pipe cross connection means
50: washing water spray pipe 52: spray hole
54: washing water branch pipe 56: branch spray hole
58: washing spray nozzle 60: metering pump
62: oil-water separator 64: water level sensor
66: float sensor 68: cooling tower
70: clean-up tank

Claims (5)

The first heat exchanger 10 that is connected to the rear end of the tenter to receive and exchange heat with high-temperature exhaust gas and recover waste heat, and the exhaust gas that has passed through the first heat exchanger 10 is supplied to the inside as well as inside A cyclone scrubber 14, which is provided with a rotary type washing water supply means 12 that receives washing water from the outside and sprays it inside, removes particulate matter, gaseous substances, and organic solvents contained in exhaust gas, and a cyclone scrubber ( 14) provided at the lower part of the cyclone scrubber 14, receiving washing water containing foreign substances discharged into the lower part of the cyclone scrubber 14, and supplying the washing water to the cyclone scrubber 14 as well as a washing water tank 16, and a washing water tank A chemical supply tank 18 that is provided spaced apart from (16) and provided in plurality, and a chemical supply tank 18 that supplies different chemicals for removing insoluble gaseous substances to the inside of each of the washing water tanks, and a first heat exchanger Condensation heat exchanger (20) connected to one side of (10) to receive exhaust gas passing through the cyclone scrubber (14) to the inside, and to recover waste heat of exhaust gas through heat exchange and to condense moisture contained in exhaust gas (20) And, it is provided connected between the condensation heat exchanger 20 and the first heat exchanger 10 to receive exhaust gas from the condensation heat exchanger 20 and to separate and remove moisture in the exhaust gas of the first heat exchanger 10 The water separator 22 supplied to the inside, and a plurality of connected to the other side of the first heat exchanger 10 are provided in multiple stages to pass through the inside of the first heat exchanger 10 and receive the exhaust gas heated to the inside. An electric dust collector 24 that recovers particulate matter, gaseous matter, and organic solvents contained in the exhaust gas by an electric dust collector method by corona discharge, and the exhaust gas that is provided on the other side of the electric dust collector 24 and has passed through the electric dust collector 24 An activated carbon filter unit 26 that receives gas to the inside and has activated carbon on the inside to collect and remove designated odor substances remaining on the exhaust gas, and the other side of the activated carbon filter unit 26 for exhaust A blower 28 and a blower 28 for smooth movement of gas ) and an exhaust tower 30 for receiving exhaust gas from the blower 28 and discharging it to the outside, the first heat exchanger 10, the cyclone scrubber 14, the washing water tank 16, the chemical supply tank ( 18), the condensing heat exchanger 20, the electrostatic precipitator 24, the activated carbon filter unit 26, and the blower 28 are connected to a plurality of sensors 32 that transmit signals, respectively, and are connected to each of the sensors 32 In addition to receiving the signal, the first heat exchanger 10, the cyclone scrubber 14, the washing water tank 16, the chemical supply tank 18, the condensation heat exchanger 20, the electric dust collector 24, the activated carbon filter unit 26 ), an activated carbon filter comprising a control unit 34 provided to control the blower 28 and a cyclone scrubber having a rotary washing water supply means are added in the exhaust gas treatment process system after the tenter,
The exhaust gas of 120 ~ 200 ℃ supplied from the rear end of the tenter is supplied to the inside of the first heat exchanger 10, the temperature of the exhaust gas is exchanged with any one selected from the air cooling type or the water cooling type to reduce the temperature and recover the waste heat of the exhaust gas a first step (S1);
A cyclone duct ( 38) through a second step (S2) of supplying the inside of the cyclone scrubber 14;
The exhaust gas is supplied to the inside of the cyclone scrubber 14 through the cyclone duct 38, and the washing water sprayed from the first injection nozzle 36 and the cyclone scrubber 14 are provided inside the washing water tank. Particulate substances, gaseous substances, and organic solvents contained in the exhaust gas due to a plurality of rotating washing water supply means 12 that spray the supplied washing water, a filler (Pall ring) and a filter (Demister) together with the washing water A third step (S3) of falling and discharged to the lower portion of the cyclone scrubber 14 formed in a conical shape, and the exhaust gas is vortexed and moved upward;
The exhaust gas that has passed through the cyclone scrubber 14 is supplied to the inside of the condensing heat exchanger 20, and heat exchanges the exhaust gas with any one of an air cooling type or a water cooling type to recover waste heat of the exhaust gas, and also reduce the temperature of the exhaust gas and exhaust the exhaust gas. a fourth step (S4) in which the gas is temperature reduced and particulate matter, gaseous matter, and organic solvents contained in the exhaust gas are discharged to the lower part together with condensed water in which moisture is condensed in the exhaust gas;
The exhaust gas that has passed through the condensing heat exchanger 20 is supplied to the inside of the water separator 22, and the moisture contained in the exhaust gas is separated, and particulate matter, gaseous matter, and organic solvents are lowered together with the separated moisture. a fifth step of discharging (S5);
The exhaust gas that has passed through the water separator 22 is supplied to the inside of the first heat exchanger 10, and heat exchanges with the exhaust gas of 120 to 200° C. supplied from the rear end of the tenter to increase the temperature of the exhaust gas that has passed through the water separator 22 a sixth step (S6);
A plurality of exhaust gases passing through the water separator 22 and the first heat exchanger 10 are provided and supplied to the inside of the electrostatic precipitator 24 connected in multiple stages, and particulate matter contained in the exhaust gas through corona discharge , a seventh step (S7) of collecting and recovering gaseous substances and organic solvents;
The eighth step of receiving the exhaust gas that has passed through the electric precipitator 24 to the inside of the activated carbon filter unit 26 having activated carbon therein, and collecting and removing designated odor substances remaining on the exhaust gas that has passed through the electric precipitator ( S8);
A ninth step (S9) of discharging the exhaust gas from which particulate matter, gaseous matter, organic solvents, and designated odor substances have been removed that has passed through the activated carbon filter unit 26 to the outside through the exhaust tower 30 via the blower 28 (S9) ); including;
The rotary washing water supply means 12 is spaced apart from the ground on the inside of the cyclone scrubber 14 and is provided horizontally with the ground to receive the washing water from the washing water tank 16 It is connected to the lower part of the main pipe 42 It is provided to receive the washing water from the main pipe 42 , the upper part is provided with a connecting pipe 44 connected to the lower part of the main pipe 42 , and the lower part of the connecting pipe 44 is through the connecting pipe 44 . A rotary joint 46 that is rotatably provided while receiving the washing water inside is provided, and the lower portion of the rotary joint 46 is supplied with washing water from the rotary joint 46 as well as in the rotary joint 46 A pipe cross connecting means 48 is provided so as to be able to supply washing water while rotating by the rotation, and on the outside of the pipe cross connecting means 48, one side is radially connected to the pipe cross connecting means 48. A plurality of washing water injection pipes 50 that are supplied with the washing water from the pipe cross connection means 48 and the other side of each are sealed are provided, and the lower portion of each washing water injection pipe 50 is provided at regular intervals, respectively. In addition to being perforated in the shape of a long hole, each of the injection holes 52 inclined at a predetermined angle with respect to the longitudinal direction of the cleaning water injection pipe 50 are formed, so that the cleaning water is sprayed through the injection hole 52. A process system for treating exhaust gas after a tenter with a cyclone scrubber having an activated carbon filter unit and a rotating washing water supply means, characterized in that the entire injection pipe 50 is automatically rotated by the rotary joint 46. According to claim 1,
At the rear end of the activated carbon filter unit 26, the exhaust gas that has passed through the activated carbon filter unit 26 is supplied to the inside and heat exchanges the exhaust gas with any one selected from the air cooling type or water cooling type to reduce the temperature of the exhaust gas to 25 ~ 45 °C and exhaust the exhaust gas. Activated carbon filter unit and rotary type, characterized in that the second heat exchanger 40 for condensing and discharging moisture contained in the gas to the outside, exhausting the exhaust gas with reduced white smoke, and recovering the waste heat of the exhaust gas is provided A process system for treating exhaust gas after tenter to which a cyclone scrubber having a washing water supply means is added. delete According to claim 1,
On each of the washing water jet pipes 50 of the rotary washing water supply means 12, each end is vertically connected to the washing water jet pipe 50 and the washing water branch pipe 54 with the other end sealed is connected. It is provided, and in the lower part of the washing water branch pipe 54, a plurality of each are perforated in a long hole shape at regular intervals, and each branch injection hole is formed to be inclined at a predetermined angle with respect to the longitudinal direction of the washing water branch pipe 54 ( 56) is formed, and a cyclone scrubber having an activated carbon filter unit and a rotating washing water supply means is added to the exhaust gas treatment process system after the tenter. 3. The method of claim 2,
The first heat exchanger 10 , the condensation heat exchanger 20 , the electric dust collector 24 , and the second heat exchanger 40 are respectively supplied with water or steam from the outside on the inside of the first heat exchanger 10 , the condensation heat exchanger (20), the first heat exchanger 10, the condensation heat exchanger 20, the electrostatic precipitator 24, and the second heat exchanger 40 by supplying to the inside of the second heat exchanger 40, respectively. Each of the cleaning spray nozzles 58 for cleaning the interior or extinguishing the fire is provided, and a metering pump 60 for supplying a certain amount of chemicals to the cleaning water tank 16 is connected to each of the chemical supply tanks 18, respectively. is provided, and inside each of the chemical supply tanks 18, one or two or more types from the group consisting of water, ammonium hydroxide, sodium hydroxide, potassium hydroxide, hydrogen peroxide, nitric acid, acetic acid, hydrochloric acid, phosphoric acid, sodium carbonate, and sulfuric acid are formed Chemicals are provided, and on the outside spaced apart from the washing water tank 16, it is connected to the washing water tank 16 and receives the washing water containing the oil from the washing water tank 16 to separate the oil from the washing water and collect the oil. An oil-water separator 62 is provided, and a water level measuring sensor 64 that measures the level of the washing water and transmits it to the control unit 34 is provided on the washing water tank 16, and the washing water tank 16 and the cyclone scrubber 14 are provided. ), a float sensor 66 that measures the supply of washing water and transmits it to the control unit 34 is provided. Gas treatment process system.

Images