KR100963537B1 - Multi-layer cleansing type removing apparatus for condensible tar in exhaust gas - Google Patents

Abstract

PURPOSE: A condensable tar removing apparatus for cleaning a multilayer mesh filter is provided to eliminate compressive tar contained in exhaust gas generated in a melting process for recycling polymeric waste including a waste plastic film, and waste plastic etc. CONSTITUTION: A condensable tar removing apparatus(1000) for cleaning a multilayer mesh filter comprises the following: an influx unit(100) in which gas containing condensable tar flows in; a first cleaning water blowing unit(220); a cleaning unit(200) including the mesh filter(210) in which condensable particles of gas inside is captured, is carried to a lower part by a liquid film formed between lattice by cleaning water sprayed from the first cleaning water blowing unit; a second cleaning water blowing unit(110) spraying cleaning water to the inside of the influx unit; a cleaning water feed part(310) which supplies cleaning water; a draw-off point(320); a storage(300) including cleaning water feed part, control valves(311,321,331) formed in the draw-off point and a connecting part, the first cleaning water blowing unit and the connecting part(330) supplying the cleaning water to a second cleaning water blowing unit; an oil adsorption mean(400) between the cleaning unit adsorbing distillate including tar of the cleaning water inside and the cleaning unit; a gas discharge portion(500) in which gas communicated with a storage and purified is exhausted; a guide fan which is equipped at the gas discharge portion.

Description

Multi-layer cleansing type removing apparatus for condensible tar in exhaust gas}

The present invention relates to a multi-layer mesh filter cleaning condensable tar removing device, and more particularly, to condensation contained in exhaust gas generated during melting to recycle polymer resins such as waste vinyl and polymer waste such as waste plastic. The present invention relates to a multi-layer mesh filter cleaning condensable tar removal device for easily removing streaked tar.

As resource recycling is a very important concern in the world today, the recycling of polymer wastes from waste vinyl, packaging paper or waste plastics has been greatly expanded.

The technology that occupies a large part in recycling is a resource-recycling technology for melting such wastes and recycling them into recycling resources, and a melter is typically used.

In detail, the melter melts polymer waste such as waste vinyl, wrapping paper, or waste plastic using heat to make a gel, and then forms it using a press or the like to produce a recycled product.

In the melter, heating is performed in order to make the polymer waste into a gel phase, so that pyrolysis occurs in the heating process, thereby destroying the chain of the polymer, thereby generating low molecular gas, condensable oil, or tar.

Condensable materials containing such tars are evaporated by high temperature to be contained in the exhaust gas and are transported through a transfer pipe for exhaust of the exhaust gas.

However, the condensable substances are not discharged to the end in the evaporated state, and most of the condensable substances are rapidly condensed in the conveying conduit, mixed with the dust in the exhaust gas, and adhered to the inner wall of the conveying conduit.

With the continuous use of the melter, the amount of adhesion to the inner wall surface of the conveying pipe increases, making the conveying pipe narrow, and in severe cases, the conveying pipe may be completely blocked.

In this case, it is difficult to fully carry out the function of the transfer pipe itself, and the exhaust gas flows backwards, causing the exhaust gas to spread inside the factory, polluting the working environment, and inhaling the worker's health.

In addition, the tar adhering to the conveying pipe is a flammable material having a high calorific value, so that it is ignited by an accidental ignition source and causes a fire. It should not be.

When the condensable tar or oil is removed using a general filter, the condensable tar or oil is clogged immediately due to the mixing of the sticky substance and the dust, and thus there is a problem in that the gas does not flow and thus the purification ability is lost.

Conventionally, in order to solve the above problems, the condensable material in the exhaust gas is purified using a wet scrubber or a wet electrostatic precipitator, which is washed by flowing washing water between packings, but the method has a lot of equipment and operating costs. There is a disadvantage in that it is difficult to be equipped in a small recycling workplace is not suitable for reality.

In addition, the purification by the wet scrubber or wet electrostatic precipitator requires a large amount of purified water, the waste water is generated by that, there is a problem causing secondary pollution.

In addition, in the case of the wet scrubber, since the removal efficiency of the fine particles is low, there is a problem in that the treatment of the smoke particles of 1 micrometer or less is difficult.

In addition, in the case of a dry removal device such as an inertial collision device or a cyclone, tar is not completely removed, and finer smoke particles than the condensable material such as tar are further removed, and thus cannot be used alone. Inevitably, it is inefficient in terms of cost and performance.

The present invention was devised to solve the above problems, and an object of the present invention is to form a multi-stage mesh filter and a washing part sprayed with water to easily remove tar components, and to increase the removal performance of the multilayer mesh filter. It is to provide a cleaning condensation tar removal device.

In particular, an object of the present invention is to provide a simple configuration, provided in close proximity to the melt recycling apparatus of the polymer wastes to easily remove the condensable tar component contained in the exhaust gas condensation and adhesion of the tar component in the conveying pipe line Multi-layered mesh that can reduce the cost of operation, reduce the cost of fire, and eliminate the risk of fire and eliminate the need for the existing large wet scrubber or wet electrostatic precipitating method. It is an object of the present invention to provide a filter-cleaning condensable tar removing device.

The multi-layer mesh filter cleaning condensable tar removing device 1000 of the present invention is connected to the exhaust pipe in the condensable tar removing device 1000 which is connected to an exhaust pipe through which the exhaust gas of the melter is discharged to remove the condensable tar. An inlet 100 through which the gas containing the condensable tar is introduced; A washing unit 200 communicating with the inlet unit 100 and including a first mesh water 210 and a first washing water spraying unit 220 for spraying washing water toward the mesh filter 210 at an upper portion thereof; Washing water is stored at the lower side of the washing unit 200 (300); Oil adsorption means (400) for adsorbing oil containing tar in the washing water between the washing unit (200) and the storage unit (300); A gas discharge part 500 communicating with the storage part 300 to discharge the purified gas; And a manned blower (not shown) provided at the gas discharge part 500 to suck the purified gas. Characterized in that it comprises a.

At this time, the multi-layer mesh filter cleaning condensation tar removing device 1000 is characterized in that the plurality of cleaning unit 200 is formed in the height direction.

In addition, the gas discharge unit 500 is characterized in that the water removal means 600 for removing the water in the gas is further formed, the inlet 100, the second washing water for spraying the washing water into the interior It is characterized in that the injection means 110 is formed.

In addition, the storage unit 300 is a washing water supply unit 310 for supplying the washing water to be maintained at a constant water level, the discharge portion 320 for discharging, the first washing water spraying means 220 and the first The communication unit 330 for supplying the washing water in the storage unit 300 to the two washing water injection means 110 is formed, and the washing water supply unit 310, the drainage unit 320 and the communication unit 330 is It is characterized in that the control valve (311, 321, 331) for controlling the inflow and outflow of the washing water.

In addition, the mesh filter 210 and the oil adsorption means 400 is characterized in that the removable.

In addition, the mesh filter 210 is characterized in that the liquid film is formed between the lattice by the washing water, the condensable particles in the gas is captured and condensed by the liquid film is moved to the lower side.

Accordingly, the multi-layer mesh filter cleaning condensable tar removing device of the present invention has a condensation property contained therein even if a gas having a velocity of 5 m / s or more is moved as the liquid film between mesh filter grids is continuously formed rapidly. There is an advantage in that tar, oil, and fine particles can be easily removed.

In addition, the multi-layer mesh filter cleaning condensable tar removing device of the present invention is provided with a first washing water spraying means and a second washing water spraying means so that the condensable material is not adhered to the inside thereof, so that it is immediately adjacent to the melter without the risk of fire. It can be provided, and as a simple configuration, there is an advantage of easy production and maintenance.

In particular, the multilayer mesh filter cleaning type condensable tar removing device of the present invention has a very small pressure loss due to the increase of the differential pressure, compared to the conventional cleaning device, and facilitates the movement of gas even using a low pressure air blower. There is an advantage that can lower the equipment cost.

Hereinafter, the multilayer mesh filter cleaning type condensable tar removing device 1000 according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a multi-layer mesh filter cleaning condensation tar removal apparatus 1000 of the present invention, Figure 2 is a mesh filter 210 of the multi-layer mesh filter cleaning condensation tar removal apparatus 1000 of the present invention. 3 is another view illustrating the multilayer mesh filter cleaning type condensable tar removing device 1000 according to the present invention.

In general, the heating melting apparatus used in the process of recycling waste vinyl or plastic waste is used in the temperature range of 400-600 ° C, so that condensable tar generated by pyrolysis in the exhaust gas generated during the melting process of waste vinyl or waste plastic is used. It will contain a large amount of oil and will contain fine particles of smoke due to the high temperature of the contact surface.

The present invention is a multi-layer mesh filter cleaning condensation tar removing device 1000 is a device for removing the condensable tar contained in the exhaust gas of the melter, as well as the condensable tar, oil and fine particles are also removed together Possible device.

As shown in Figure 1, the multilayer mesh filter cleaning condensation tar removal apparatus 1000 of the present invention includes an inlet portion (100); Cleaning unit 200; Storage unit 300; Oil adsorption means (400); Gas discharge unit 500; And a manned blower.

The inlet 100 is connected to an exhaust pipe through which the exhaust gas of the melter is discharged and is a space in which gas is introduced. The inlet 100 is provided adjacent to the melter.

The washing unit 200 is a space in which gas flows in communication with the inlet unit 100, and a mesh filter 210 is provided at a lower portion thereof, and a first washing unit sprays washing water toward the mesh filter 210 at an upper portion thereof. The washing water spraying means 220 is provided.

The mesh filter 210 is formed with a plurality of lattice, the liquid film is formed by the washing water, the condensable particles in the gas introduced by the liquid film is captured and condensed, so as to move to the lower side.

The mesh filter 210 may have various mesh sizes, but in the case of SUS material, # 20 to # 30 may be used, and other materials may be used in addition to the SUS material.

The first washing water spraying unit 220 is a means for injecting the washing water toward the mesh filter 210, and the nozzle 222 provided at the end of the conveying pipe 221 and the conveying pipe 221 to which the washing water is transferred. When the space of the cleaning unit 200 is large, a plurality of nozzles 222 may be provided, the transfer pump 223 for transferring the cleaning water to the nozzle 222 It may be formed to include.

At this time, the first washing water spraying means 220 is to supply the washing water to the entire space of the cleaning unit 200 including the wall portion of the multi-layer mesh filter cleaning condensable tar removal apparatus 1000 of the present invention. It is desirable to improve the purification efficiency.

The multi-layer mesh filter cleaning type condensable tar removing device 1000 of the present invention includes a first filter water spraying unit 220 for cleaning the mesh filter 210 and the mesh filter 210 in the cleaning unit 200. As a result, the gas purification efficiency can be increased by allowing the condensable tar, oil and fine particles in the gas to be easily captured by the washing water.

On the other hand, the multi-layer mesh filter cleaning type condensable tar removing device 1000 of the present invention may be formed in the inlet 100, the second washing water spraying means 110 for spraying the washing water.

The second washing water spraying means 110 includes a transfer pipe 111 and a nozzle 112 through which the washing water is transferred, similarly to the first washing water spraying means 220, and the second washing water spraying means. The transfer pipe 111 of 110 may allow the washing water to move simultaneously by the transfer pump 223 of the first washing water injection unit 220.

The second washing water spraying means 110 includes a wall surface inside the inlet portion 100 to inject washing water, so that the condensable substance inside the exhaust gas flows on the inner wall surface so that the condensable substance flows in the inlet portion. It is attached to the inner wall of the 100 or the cleaning unit 200 to prevent growth.

The storage unit 300 is provided below the cleaning unit 200 to store the washing water, and the gas passing through the mesh filter 210 is stored.

At this time, the storage unit 300 is a washing water supply unit 310 for supplying the washing water to maintain a constant water level, and the drainage portion 320 for discharging the washing water is formed, at this time, the washing water supply unit ( 310 and the drain 320 is opened or closed by the control valve (311, 321).

1 and 3 illustrate an example in which the control valve 311 of the washing water supply unit 310 is formed as a balltop valve including a ball floating in the washing water.

In addition, the multi-layer mesh filter cleaning type condensable tar removing device 1000 of the present invention is an oil adsorption means for adsorbing the oil containing condensable tar in the washing water between the cleaning unit 200 and the storage unit 300. 400 may be provided to purify the washing water, and to be injected into the inlet 100 and the washing unit 200 by using the purified purified water.

At this time, it is preferable that a communication part 330 is formed in the storage part 300 to supply the washing water stored therein to the first washing water spraying means 220 and the second washing water spraying means 110. The communication unit 330 is also provided with a control valve 331 for controlling the inflow and outflow of the washing water, the transfer pipe 111 of the first washing water injection means 220 and the second washing water injection means 110, 221 is connected.

Through this, the multi-layer mesh filter cleaning condensable tar removing device 1000 of the present invention is a simple configuration for forming a communication unit 330 in the storage unit 300, the first washing water injection means 220 and There is an advantage that it is possible to simply spray the washing water without a separate configuration for supplying the washing water to the second washing water spraying means (110).

The gas discharge part 500 is a space in which the purified gas is communicated with the storage part 300 and is discharged. The storage part 300 has condensable material and fine particles therein while passing through the cleaning part 200. Since the purified water and the purified gas are condensed and passed through the oil adsorption means 400 again, the gas discharge part 500 is outside the atmosphere at a position higher than the highest level of the washing water of the storage part 300. It is formed to communicate with.

At this time, the gas discharge unit 500 is provided with a manned blower for sucking the purified gas.

In the multilayer mesh filter cleaning type condensable tar removing device 1000 of the present invention, a plurality of cleaning parts 200 may be formed to increase the purification efficiency, and in FIG. 3, three washing parts 200 are formed. Is shown.

The gas discharge part 500 may be provided with a water removing means 600 to prevent the outflow of water contained in the gas, at this time, the water removing means 600 may be a demister. .

The exhaust gas generated from the melter is moved to the multilayer mesh filter cleaning type condensable tar removing device 1000 through the inlet part 100, and the washing water and the washing water in the inlet part 100 and the washing part 200 space. It is moved together, and the condensable tar, oil and fine particles in the gas are trapped in the washing water through the mesh filter 210 (condensation).

At this time, the first washing water spraying means 220 and the second washing water spraying means 110 not only adsorb condensable substances in the gas while passing through the mesh filter 210, but also the inlet 100. And the condensable material is prevented from adhering to the inner wall of the cleaning unit 200.

The cleaning unit 200 capturing the condensable material is moved downward, and only the cleaning water cleaned and purified while passing through the oil adsorption means 400 is transferred to the storage unit 300.

At this time, the remaining cleaned gas is transferred to the storage unit 300 and is discharged through the gas discharge unit 500.

The mesh filter 210 is a means for reducing the blockage by the first and second washing water spraying means 220 and the second washing water spraying means 110 to easily trap the condensable material in the washing water. It is desirable to be detachably provided for easy replacement and inspection according to long-term use.

In addition, the oil adsorption means 400 is also preferably detachable to maintain a stable purifying performance of the washing water.

The multi-layer mesh filter cleaning condensable tar removing device 1000 of the present invention is included in the liquid film between the mesh filter 210 grids even if a gas having a speed of 5 m / s or more is moved as it is continuously formed rapidly. There is an advantage that can easily remove the condensable tar, oil, and fine particles.

In addition, the present invention is provided with the first washing water spraying means 220 and the second washing water spraying means 110 may be provided immediately adjacent to the melter without the risk of fire because the condensable material is not adhered therein. As a simple configuration, it has the advantage of easy production and maintenance.

In particular, the present invention has the advantage that the pressure loss due to the increase of the differential pressure is very small, compared to the conventional cleaning device can facilitate the movement of gas even using a manned blower with a low wind pressure has the advantage of lowering the equipment cost.

The multi-layer mesh filter cleaning condensable tar removing device 1000 of the present invention may be applied to various devices in which the condensable tar is included in the exhaust gas, and in particular, may be provided in a polymer waste melter, a plant waste processor, or the like. have.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not satisfy all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be water and variations.

1 is a view showing a multi-layer mesh filter cleaning condensation tar removal apparatus of the present invention.

Figure 2 is a view showing a mesh filter of the multi-layer mesh filter cleaning condensation tar removal apparatus of the present invention.

Figure 3 is another view showing a multi-layer mesh filter cleaning condensation tar removal apparatus of the present invention.

<Explanation of symbols on main parts of the drawings>

1000: Multi-layer mesh filter cleaning type condensation tar removing device

100: inlet 110: second washing water injection means

111: transfer pipe 112: nozzle

200: cleaning unit 210: mesh filter

220: first washing water injection means 221: transfer pipe

222: nozzle 223: pump

300: storage unit 310: washing water supply unit

320: drainage portion 330: communication portion

311, 321, 331: regulating valve

400: oil adsorption means 500: gas discharge unit

600: water removal means

Claims (7)

In the condensable tar removing device 1000 is connected to the exhaust pipe from which the exhaust gas of the melter is discharged to remove the condensable tar, An inlet part 100 connected to the exhaust pipe and into which gas containing condensable tar is introduced; A liquid film is formed between the lattice by the first washing water spraying means 220 and the washing water sprayed from the first washing water spraying means 220 , which are in communication with the inflow part 100 and spray the washing water. A cleaning unit 200 including a mesh filter 210 configured to capture condensable particles in the gas and move downwards ; Second washing water spraying means (110) for spraying washing water into the inlet (100); The washing water is stored under the washing unit 200, but the washing water supply unit 310 supplies washing water so that the washing water is maintained at a predetermined level, the draining unit 320 discharged from the washing unit, and the first cleaning unit. Communication unit 330 for supplying the washing water in the storage unit 300 to the water spraying means 220 and the second washing water spraying means 110, the washing water supplying part 310, the draining portion 320 and A storage unit 300 formed in the communication unit 330 and including control valves 311, 321, and 331 for controlling the inflow and outflow of the washing water ; Oil adsorption means (400) for adsorbing oil containing tar in the washing water between the washing unit (200) and the storage unit (300); A gas discharge part 500 communicating with the storage part 300 to discharge the purified gas; And A manned blower (not shown) provided in the gas discharge part 500 to suck the purified gas; Multi-layer mesh filter cleaning condensation tar removal apparatus comprising a. The method of claim 1, The multi-layer mesh filter cleaning condensation tar removing device 1000 is characterized in that a plurality of the cleaning unit 200 is formed in the height direction. The method of claim 2, The gas discharge part 500 is a multi-layer mesh filter cleaning type condensation tar removing device, characterized in that the water removal means 600 for removing the water in the gas is further formed. delete delete The method of claim 2, The mesh filter 210 and the oil adsorption means 400 is a multi-layer mesh filter cleaning condensation tar removal device, characterized in that detachable. delete

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