KR20220118141A - Hazardous gas treatment device of waste synthetic resin recycling facility - Google Patents

Abstract

The present invention relates to a harmful gas treatment device of a waste synthetic resin recycling facility capable of treating harmful gas generated in a melting process of a waste synthetic resin in the waste synthetic resin recycling facility, and specifically, to a harmful gas treatment device of a waste synthetic resin recycling facility that sequentially processes harmful gas discharged from the waste synthetic resin recycling facility through a scrubber, a gas purifier, and an electric precipitator.

Description

Hazardous gas treatment device of waste synthetic resin recycling facility }

The present invention relates to a hazardous gas treatment apparatus of a waste synthetic resin recycling facility capable of treating harmful gas generated in the process of melting the waste synthetic resin of the waste synthetic resin recycling facility, and in particular, a scrubber and gas It relates to a hazardous gas treatment device of a waste synthetic resin recycling facility that sequentially processes through a purification means and an electric dust collector.

Synthetic resin is one of the outstanding inventions that brought the revolution of the 20th century, and although it is still widely used in various industrial fields, there has been difficulty in disposal after use. As long as it is not decomposed, it takes hundreds of years to decompose in the natural state, literally, it is a material that hardly decomposes. Waste synthetic resins that have already been produced and discarded are threatening the global environment everywhere.

Various petrochemical products using these synthetic resins as main raw materials are either buried in landfills, which are social infrastructure, or incinerated at incinerators when they are disposed of after use.

However, since waste containing synthetic resin (hereinafter referred to as “waste synthetic resin”) is not naturally decomposed, it not only degrades the soil when landfilling waste synthetic resin, but also mixes with other pollutants in case of rain or the like and flows into a river. There is a problem with the flow and contaminating the water quality.

In addition, when the waste synthetic resin is incinerated, there is a problem of polluting the atmosphere due to the emission of various heavy metals and the generation of harmful gases.

In particular, such water and air pollution is emerging as a serious problem that adversely affects the human body as well as the destruction of the natural environment.

Accordingly, in recent years, waste synthetic resin recycling systems that prevent environmental pollution and human health from being impaired by recycling waste synthetic resins are continuously being developed and developed.

In general, as a recycling method of waste synthetic resin, the waste synthetic resin is melt-extruded and then foreign substances contained in the molten resin are removed and used.

However, in the process of melting the waste synthetic resin, harmful gases are generated inevitably, and these harmful gases not only adversely affect the human body, but also cause odor pollution in the surrounding area and cause inconvenience to residents living nearby.

Although a dust collector is used to treat these harmful gases, the impurity dust generated from the waste synthetic resin and the tar generated when the waste synthetic resin is melted stick to the inside of the dust collector, and the cleaning process that must be periodically cleaned inside the dust collector is added. there has been

Therefore, there is a need for research and development that can significantly reduce environmental pollution by reducing the purified gas to the atmosphere by purifying harmful gases while being more environmentally friendly and highly efficient.

Republic of Korea Patent No. 10-0663734 (2007.1.5)

The present invention was invented to solve the problems of the prior art as described above, and the harmful gas generated in the waste synthetic resin recycling facility is converted to a high temperature through an external burner while foreign substances are removed through the scrubber, and then purified through a gas purification means An object of the present invention is to provide a harmful gas treatment device for a waste synthetic resin recycling facility in which the purified harmful gas is finally treated through an electric dust collector and the harmful gas is efficiently treated.

In order to achieve the above object, the dust collecting duct is provided on the upper side of the melter for melting the waste synthetic resin to suck and discharge the harmful gas generated when the waste synthetic resin is melted; An injection nozzle is provided on the upper side of the inside to spray the cleaning liquid, and a plurality of filter bodies are provided on the lower side of the injection nozzle in a cylindrical shape. a scrubber in which foreign substances contained in the harmful gas are removed due to the filter body, and the odor and pollutants contained in the harmful gas are removed by the cleaning liquid sprayed from the spray nozzle and discharged to the outside; a first moving duct installed on the scrubber to move the harmful gas discharged from the scrubber; an inlet box having a hollow interior at one side of the first moving duct and in the form of a housing into which the harmful gas moving in the first moving duct is introduced, and a support body supported on the ground is formed at the lower part; an external burner provided on a part of the inlet box to supply high-temperature heat to the inside of the inlet box to increase the temperature by applying heat to the noxious gas flowing in the inlet box, and to remove moisture and dust contained in the noxious gas; a second moving duct installed on one side of the inlet box to move the harmful gas whose temperature is increased inside the inlet box by an external burner; a gas purifying means connected to the second moving duct to receive the moved noxious gas, and to purify and pass the introduced noxious gas; a suction fan installed in the gas purification means for sucking and discharging harmful gas purified by the gas purification means; an exhaust duct body installed in the suction fan and through which the exhausted harmful gas is moved; An electrostatic precipitator in which the harmful gas moving from the exhaust duct is introduced, and a dust collecting electrode and a discharge electrode are provided inside to collect and recover harmful substances contained in the harmful gas through plasma discharge to discharge the harmful gas from which the harmful substances are removed. ; An exhaust duct for discharging harmful gases from which harmful substances have been removed through the electric dust collector is provided.

In addition, the gas purifying means is made of a metal body in the form of a hollow housing, one side of which is connected to the second moving duct, a body into which the harmful gas discharged from the second moving duct flows, and the harmful gas flowing into the inside of the main body. It consists of a heating burner that increases the temperature of 200 ~ 300 ℃ by applying heat to the gas, and a case in which a plurality of passage holes are formed so that harmful gases can flow in and pass through the upper side where the heating burner is provided inside the body, It is characterized in that it consists of a purification case in which a plurality of partition walls are formed so that the space can be partitioned into the case, and a platinum catalyst in the form of a grid is provided inside the partition wall to purify and pass through the harmful gas whose temperature has risen from the heating burner. do it with

In the present invention made in this way, the harmful gas generated in the waste synthetic resin recycling facility is converted to a high temperature through an external burner while foreign substances are removed through the scrubber, and then purified through a gas purification means. There is an expected ripple effect by causing the revitalization of industries that have been avoided due to odor pollution complaints and environmental regulations around waste synthetic resin recycling facilities that are finally treated and generate harmful gases, and create jobs and other profits that are rippled from the activation.

In addition, there is an effect of preventing the tar from sticking to the dust collector while allowing the harmful gas to be treated more efficiently through the scrubber and the gas purification means, which was only treated with the existing dust collector.

1 and 2 are a front view and a plan view showing a preferred embodiment of the present invention;
3 is an exemplary view showing a preferred form of the scrubber of the present invention;
4 is an exemplary view showing a form in which harmful gas is introduced and discharged into the gas purification means of the present invention;
5 is an exemplary view showing the internal form of the gas purification means of the present invention.

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

The present invention relates to a hazardous gas treatment apparatus of a waste synthetic resin recycling facility capable of treating harmful gas generated in the process of melting the waste synthetic resin of the waste synthetic resin recycling facility, and dust collection as shown in FIGS. 1, 2, 3 and 4 Duct (10), scrubber (20), first moving duct (30), inlet box (40), external burner (50), second moving duct (60), gas purification means (70), suction fan (80) , the exhaust duct body 90 , the electric dust collector 100 , and the exhaust duct 110 are included.

The dust collecting duct 10 is provided on the upper side of the melter 1 in which the melting process of the waste synthetic resin is performed in the waste synthetic resin recycling facility, and is configured to suck and discharge harmful gas generated during the melting process of the waste synthetic resin.

As shown in FIG. 3 , the scrubber 20 is provided with a spray nozzle 21 on the inner upper side to spray the cleaning liquid, and a plurality of filter bodies 23 are provided at intervals below the spray nozzle 21. made in the form

That is, the scrubber 20 is connected to the dust collecting duct 10 and the lower outer side to introduce the harmful gas discharged from the dust collecting duct 10 from the lower part, and the foreign substances contained in the harmful gas due to the plurality of filter bodies 23 are gradually removed. The odor and contaminants contained in the harmful gas are removed due to the cleaning liquid sprayed from the injection nozzle 21 and are configured to be discharged to the outside, and the relatively bulky foreign substances contained in the harmful gas through the scrubber 20 are removed. and odors and contaminants are removed.

In addition, the cleaning liquid sprayed from the injection nozzle 21 to remove odors and pollutants contained in the harmful gas uses one or a mixture of two or more from the group consisting of caustic soda, sodium carbonate, and sulfuric acid.

Here, the lower portion of the scrubber 20 is provided with a discharge plate 25 for selectively opening the lower side of the scrubber 20 is configured to discharge the cleaning liquid used in the scrubber 20 to the lower portion.

In addition, a collection tank 26 for collectively collecting the cleaning liquid discharged by the opening operation of the discharge plate 25 is provided at the lower portion spaced apart from the scrubber 20 .

The collection tank 26 is provided with a cleaning liquid filter body 27 for filtering foreign substances in the cleaning liquid on the upper side inside, and the cleaning liquid filter body 27 allows the cleaning liquid filter body 27 to remove foreign substances from the cleaning liquid stored on one side of the collection tank 26. A cleaning liquid supply pipe 28 for supplying the supernatant to the spray nozzle 21 is provided, and a discharge hose 29 for discharging the stored cleaning liquid to the outside is provided at one lower side of the collection tank 26 .

Accordingly, it is possible to reuse the cleaning liquid used inside the scrubber 20 .

The first moving duct 30 is installed on the scrubber 20 and is configured to move the harmful gas discharged from the scrubber 20 provided with the injection nozzle 21 and the plurality of filter bodies 23 .

The inlet box 40 has a hollow inside on one side of the first moving duct 30 and is formed in the form of an enclosure into which the harmful gas moving in the first moving duct 30 is introduced, and a support 41 supported on the ground at the lower part. ) is formed.

The external burner 50 is provided on a part of the inlet box 40 to supply high-temperature heat to the inside of the inlet box 40 to apply heat to the harmful gas flowing in the inlet box 40 to a temperature of 100 to 200°C. It is configured to remove moisture and dust contained in the harmful gas at the same time as it rises to the furnace.

In addition, in the external burner 50 , an appropriate amount of gas or liquid fuel and air are mixed, the fuel is burned to supply heat, and the temperature of the heat supplied to the inlet box 40 can be easily adjusted by adjusting the amount of fuel.

The second moving duct 60 is installed on one side of the inlet box 40 and is configured to move the harmful gas whose temperature is increased inside the inlet box 40 by the external burner 50 .

The gas purifying means 70 is connected to the second moving duct 60 so that the moved noxious gas is introduced, and the introduced noxious gas is purified and passed through.

The suction fan 80 is installed in the gas purification means 70 and is configured to suck and discharge the harmful gas purified by the gas purification means 70 .

The exhaust duct body 90 is installed in the suction fan 80 and configured to move the discharged harmful gas.

The electrostatic precipitator 100 introduces harmful gas moving from the exhaust duct body 90, and a dust collecting electrode and a discharge electrode are provided therein to collect and recover harmful substances contained in the harmful gas through plasma discharge to remove harmful substances. It is configured to discharge harmful gases.

That is, the harmful substances contained in the harmful gas flowing inside the electric dust collector 100 by plasma discharge from the discharge electrode to which the power is applied to the dust collecting pole are collected on the surface of the dust collecting pole, recovered, and removed.

The exhaust duct 110 discharges the harmful gas from which the harmful substances are removed through the electric dust collector 100 to the outside, so that the harmful gas generated in the melting process of the waste synthetic resin can be treated.

Therefore, the harmful gas generated in the waste synthetic resin recycling facility is converted to a high temperature through an external burner while foreign substances are removed through the scrubber 20, and then purified through the gas purification means 70 100), causing the revitalization of industries that had been avoided due to odor pollution complaints and environmental regulations around waste synthetic resin recycling facilities where harmful gases are finally treated through the expected effect.

In addition, the effect of preventing tar from sticking to the dust collector while being able to process the harmful gas more efficiently through the scrubber 20 and the gas purifying means 70, which was only treated with the conventional dust collector, is exhibited.

On the other hand, the detailed form of the gas purifying means 70, as shown in FIG. The body 71 into which the harmful gas discharged from is included is configured.

In addition, heat is applied to the noxious gas flowing into the body 71 to raise the temperature to 200 ~ 300 ℃, so that the platinum catalyst of the purification case 73 described later catalyzes the noxious gas to be purified. A heating burner 72 is included so as to be configured.

A temperature sensor (not shown) is provided near the heating burner 72 to measure the temperature of the harmful gas flowing into the heating burner 72, and heated according to the temperature of the harmful gas introduced through the temperature sensor (not shown). By controlling the amount of air supplied to the burner 72, the temperature of the heat applied to the noxious gas is adjusted, and the heat is applied to the noxious gas to increase the temperature to 200 ~ 300 ℃.

In addition, the body 71 is formed in the form of a case in which a plurality of through holes are formed so that harmful gases can flow in and pass through the upper side where the heating burner 72 is provided, and a partition wall is formed so that a space can be partitioned into the case. A purifying case 73 that is formed in large numbers and has a lattice-shaped platinum catalyst provided inside the partition wall to purify and pass through the harmful gas whose temperature has risen from the heating burner 72 is included.

That is, the catalytic reaction is smoothly performed by the platinum catalyst provided in the purification case 73 to quickly purify the harmful gas.

In addition, the platinum catalyst provided in the purification case 73 is processed and used in the form of a mesh to increase the contact area with the harmful gas, and the smaller the particle size, the better the catalytic activity of the platinum catalyst. It is preferable that the diameter is 10 ~ 100nm, if it is smaller than this, the workability is reduced, and if it is larger than this, the catalytic activity efficiency is lowered.

And, the main body 71 has a structure in which the purifying case 73 is provided with an open or closed side.

In addition, a hand gripper 74 is provided on one side of the purification case 73 so that the purification case 73 can be detached or retracted from the inside of the body 10, so that it comes into contact with harmful gas and directly catalyzes it. to facilitate cleaning of the platinum catalyst and the purification case 73 for purifying harmful gases.

Here, as shown in FIG. 1 , a simple exhaust duct 95 for discharging harmful gas discharged from the gas purifying means 70 to the outside is further provided on a part of the exhaust duct body 90 .

In addition, a separate damper (not shown) is provided in the exhaust duct body 90 and the simple exhaust duct 95, respectively, to selectively discharge the harmful gas discharged from the gas purification means 70 to the outside or the electric dust collector 100 ) is configured to flow in.

That is, by implementing a structure in which the gas purified by the gas purification means 70 is discharged to the outside without going through the electrostatic precipitator 100, the state of the gas purified by the gas purification means 70 and the processing efficiency of harmful gases are taken into consideration. Thus, the user can discharge the gas purified by the gas purification means 70 through the simple exhaust duct 95 to the outside.

10: dust collection duct 20: scrubber
30: first moving duct 40: inlet box
50: external burner 60: second moving duct
70: gas purification means 80: suction fan
90: exhaust duct body 100: electric dust collector
110: exhaust duct

Claims (5)

a dust collecting duct (10) provided on the upper side of the melter (1) for melting the waste synthetic resin to suck and discharge harmful gas generated when the waste synthetic resin is melted;
The injection nozzle 21 is provided on the upper side of the inside to spray the cleaning liquid, and it has a cylindrical shape in which a plurality of filter bodies 23 are provided on the lower side of the injection nozzle. The harmful gas discharged from (10) is introduced from the bottom to remove foreign substances contained in the harmful gas due to the filter body 23, and the odor and pollutants contained in the harmful gas due to the cleaning liquid sprayed from the spray nozzle 21 The scrubber 20 is removed and discharged to the outside;
a first moving duct 30 installed on the scrubber 20 to move the harmful gas discharged from the scrubber 20;
The inside of the first moving duct 30 is hollow on one side of the first moving duct 30 and is made in the form of an enclosure into which the harmful gas moving in the first moving duct 30 is introduced, and a support body 41 supported on the ground is formed at the lower part of the inlet. box 40;
It is provided on a part of the inlet box 40 and supplies high-temperature heat to the inside of the inlet box 40 to apply heat to the noxious gas flowing in the inlet box 40 to increase the temperature of the noxious gas and at the same time External burner 50 to remove the contained moisture and dust;
a second moving duct (60) installed on one side of the inlet box (40) to move the harmful gas whose temperature is raised inside the inlet box (40) by an external burner (50);
a gas purifying means (70) connected to the second moving duct (60) to introduce the moved noxious gas, and to purify and pass the introduced noxious gas;
a suction fan (80) installed in the gas purification means (70) for sucking and discharging harmful gases purified by the gas purification means (70);
The exhaust duct body 90 is installed in the suction fan 80, the exhausted harmful gas is moved;
Noxious gas moving from the exhaust duct body 90 flows in, and a dust collecting electrode and a discharge electrode are provided inside to collect and recover harmful substances contained in the harmful gas through plasma discharge to discharge the harmful gas from which the harmful substances are removed. an electrostatic precipitator 100;
Exhaust duct (110) for discharging harmful gas from which harmful substances are removed through the electrostatic precipitator (100); The method of claim 1,
The gas purifying means 70 is made of a metal body in the form of a hollow housing, one side of which is connected to the second moving duct 60, and the body 71 through which the harmful gas discharged from the second moving duct 60 is introduced. Wow,
A heating burner 72 for increasing the temperature of 200 ~ 300 ℃ by applying heat to the harmful gas flowing into the inside of the main body 71,
The body 71 is formed in the form of a case in which a plurality of passage holes are formed so that harmful gases can flow in and pass through the upper side where the heating burner 72 is provided. Waste synthetic resin recycling facility, characterized in that it comprises a purifying case 73 that is formed and a lattice-shaped platinum catalyst is provided inside the partition wall to purify and pass through the harmful gas whose temperature has risen from the heating burner 72 of hazardous gas treatment equipment. 3. The method of claim 2,
The main body 71 is opened or closed to one side on which the purification case 73 is provided,
Harmful gas treatment in a waste synthetic resin recycling facility, characterized in that a hand gripper 74 is provided to one side of the purification case 73 so that the purification case 73 can be removed or retracted from the inside of the body 10 Device. 4. The method of claim 3,
A simple exhaust duct 95 for discharging the harmful gas discharged from the gas purifying means 70 to the outside is further provided on a part of the exhaust duct body 90,
Separate dampers (not shown) are provided in the exhaust duct body 90 and the simple exhaust duct 95, respectively, to selectively discharge harmful gases discharged from the gas purification means 70 to the outside or the electric dust collector 100 Harmful gas treatment device of a waste synthetic resin recycling facility, characterized in that it is configured to flow into The method of claim 1,
A discharge plate 25 for selectively opening the lower side of the scrubber 20 is provided at a lower portion of the scrubber 20,
A collection tank 26 for collectively collecting the cleaning liquid discharged by the opening operation of the discharge plate 25 is provided at the lower portion spaced apart from the scrubber 20,
The collection tank 26 is provided with a cleaning liquid filter body 27 for filtering foreign substances in the cleaning liquid on the upper side inside, and the cleaning liquid filter body 27 allows the cleaning liquid filter body 27 to remove foreign substances from the cleaning liquid stored on one side of the collection tank 26. A waste synthetic resin recycling facility, characterized in that a cleaning solution supply pipe 28 for supplying the supernatant to the injection nozzle 21 is provided, and a discharge hose 29 for discharging the stored cleaning solution to the outside is provided at one lower side of the collection tank 26 of hazardous gas treatment equipment.

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