KR200425046Y1 - Pyrolysis apparatus for polymeric waste which uses microwave - Google Patents

Abstract

The present invention relates to a pyrolysis oilification apparatus for polymer wastes using microwaves to pyrolyze and recycle polymer wastes using microwaves. The pyrolysis oilification apparatus for polymer waste using microwaves includes a microwave reactor for thermally decomposing the polymer waste using the waste oil as a heating medium by introducing the polymer waste together with the waste oil and heating the waste oil by microwaves; A carbon black and iron core separation device for separating carbon black and iron core from the polymer waste pyrolyzed in connection with the microwave reactor; A condensation device connected to the microwave reactor and dividing the oil vapor discharged from the microwave reactor into heavy oil and light oil to discharge into the oil storage tank; A desulfurization scrubber connected to the condenser to remove sulfur of the non-condensable gas that has passed through the condenser, and then discharged to a gas storage tank; A generator connected to the oil storage tank and the gas storage tank and operated using oil or gas as a fuel; And a heat exchanger connected to the generator and the microwave reactor to heat exchange with the generator to heat the microwave reactor as the generator operates.

Microwave, Pyrolysis, Polymer Waste, Reactor, Oilifier

Description

Pyrolysis apparatus for polymeric waste which uses microwave}

1 is a block diagram of a pyrolysis oilification apparatus for polymer waste according to one embodiment according to the present invention

2 is a block diagram of a microwave reactor according to one embodiment according to the present invention;

<Description of the symbols for the main parts of the drawings>

(1): pyrolysis oilification apparatus (10): microwave reactor

(11): carbon black and iron core separator (12): carbon black cooling device

(13): Condenser (14): Desulfurization Scrubber

(15): gas storage tank (16): oil storage tank

(17): carbon black storage tank (18): generator

19: heat exchanger

(101): Microwave Power Supply

(102): Magnetron (103): Waveguide

(104): microwave distributor (105): reactor

(106): waste tire (130): first hydrocarbon condenser

131: second hydrocarbon condenser

The present invention relates to a pyrolysis oilification apparatus for polymer waste using microwave, and more specifically, uniformly heating polymer waste as it is, regardless of its shape, using microwave without undergoing a pretreatment process for crushing polymer waste. It is to provide a pyrolysis oilification apparatus for polymer wastes using microwaves to enable pyrolysis to recycle the polymer wastes.

In general, more than 15 million polymer wastes, particularly waste tires, are generated annually, and the waste tires are 50% oil, 10% gas, 30% carbon, and 10% iron core by weight. As a renewable resource, its utility value is very high.

As an energy recovery using technology using waste tires as described above, there are currently dry distillation incineration and pyrolysis. Among these, the dry distillation incineration method has a problem in that it is difficult to process large quantities and secondary pollutants are generated by incineration with the burden of initial facility costs.

In addition, the conventional pyrolysis method requires a pre-treatment process consisting of a bead wire removal device, a first grinder, a tromel screen, a second grinder, and an iron core separator before the pyrolysis of waste tires. In order to equip the equipment as described above required not only very expensive equipment cost but also requires a very large installation area, there was a problem that the control and use of the device is very complicated.

Accordingly, an object of the present invention is to provide an apparatus for pyrolyzing oil of polymer waste using microwaves to enable recycling of polymer waste using microwaves.

Another object of the present invention is to provide a pyrolysis oilification apparatus for polymer wastes using microwaves to uniformly heat the polymer wastes in a circular shape regardless of the shape without going through a pretreatment process for pulverizing the polymer wastes. will be.

In order to achieve the above object, the present invention is a microwave reactor for introducing the polymer waste together with the waste oil therein, the waste oil is heated by microwave to pyrolyze the polymer waste by using the waste oil as a heating medium; A carbon black and iron core separation device for separating carbon black and iron core from the polymer waste pyrolyzed in connection with the microwave reactor; A condensation device connected to the microwave reactor and dividing the oil vapor discharged from the microwave reactor into heavy oil and light oil to discharge into the oil storage tank; A desulfurization scrubber connected to the condenser to remove sulfur of the non-condensable gas that has passed through the condenser, and then discharged to a gas storage tank; A generator connected to the oil storage tank and the gas storage tank and operated using oil or gas stored in the oil storage tank and the gas storage tank as fuel; And a heat exchanger configured to be connected to the generator and the microwave reactor to heat the microwave reactor by heat exchange with the generator as the generator operates, thereby providing a pyrolysis oilification apparatus for polymer waste using microwaves. .

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a pyrolysis oilification apparatus for polymer waste according to an embodiment according to the present invention, as shown in FIG. 1, the pyrolysis oilification apparatus 1 according to the present invention includes a microwave reactor 10 and carbon. Black and iron core separator (11), condenser (13), desulfurization scrubber (14), gas storage tank (15), oil storage tank (16), generator (18), carbon black chiller (12), carbon black It comprises a storage tank 17 and a heat exchanger (19).

The microwave reactor 10 is a polymer waste is injected into the waste oil therein and the waste oil is heated by microwaves to thermally decompose the polymer waste using the waste oil as a heating medium.

In addition, the carbon black and iron core separator 11 is connected to the microwave reactor 10 to separate the carbon black and iron core from the polymer waste pyrolyzed to collect the iron core through the outlet, the carbon black is the carbon black It is stored in the carbon black storage tank 17 via the cooling device (12).

In addition, the condenser 13 is installed to be connected to the microwave reactor 10, the first hydrocarbon condenser 130 and the first hydrocarbon condenser 130 and connected to the microwave reactor 10 and The oil vapor discharged from the microwave reactor 10 is composed of a second hydrocarbon condenser 131 connected to the heavy oil by the first hydrocarbon condenser 130 and the second hydrocarbon condenser 131. ) And light oil, and the oil divided into heavy oil and light oil is introduced into the oil storage tank 16 after the sludge treatment, oil / hydrogenation desulfurization, and desulfurization treatment. Stored.

In addition, the desulfurization scrubber 14 is connected to the condensation device 13, the non-condensable gas passing through the condensation device 13 is introduced to remove the sulfur and then discharged.

As described above, the gas from which sulfur is removed by the desulfurization scrubber 14 is discharged to the outside of the desulfurization scrubber 14 and flows into the gas storage tank 15 to be stored.

In addition, the generator 18 is connected to the oil storage tank 16 and the gas storage tank 15, it is also possible to install a boiler or steam generator in place of the generator 18.

In addition, the heat exchanger 19 is connected to the generator 18 and the microwave reactor 10 to heat exchange with the generator 18 as the generator 18 operates to heat the microwave reactor 10. Let's do it.

2 is a block diagram of a microwave reactor according to an embodiment of the present invention, as shown in FIG. 2, the microwave reactor 10 according to the present invention includes a reactor 105, a microwave distributor 104, and a wave guide. 103, the magnetron 102 and the microwave power supply 101.

The reactor 105 is a polymer waste, that is, waste tire 106 and the waste oil is put into the raw material is not pulverized by a separate grinder therein, the microwave distributor 104 is one side inside the reactor 105 Microwave is evenly sprayed in the reactor 105 by being installed to induce uniform pyrolysis from polymer waste, that is, the waste tire 106, and the waveguide 103 is one end with the microwave distributor 104. Is connected to serve to guide the microwave, the magnetron 102 is installed to be connected to the wave guide 103 to generate a microwave, the microwave power supply 101 is to be connected to the magnetron 102 Is installed.

Again, referring to Figures 1 and 2 look at the action of the pyrolysis oilification apparatus according to an embodiment according to the present invention.

As shown in FIGS. 1 and 2, polymer waste, that is, waste tire 106, is introduced into the microwave reactor 10 through an inlet of the microwave reactor 10. At this time, the waste tire 106 introduced into the microwave reactor 10 is input as it is not crushed by a separate grinder.

In addition, the microwave reactor 10 receives waste oil from a waste oil tank (not shown) so that the waste tire 106 is precipitated.

When the waste oil is supplied to the microwave reactor 10 and the waste tire 106 is precipitated as described above, the microwave power supply 101 is operated to operate the magnetron 102 to generate microwaves, and by the magnetron 102. The generated microwave is distributed evenly through the microwave guide 10 through the microwave guide 104 through the wave guide 103 so that the waste tire 106 is pyrolyzed in the waste oil. At this time, the waste oil serves as a heating medium of the waste tire 106, and the waste oil serves to thermally decompose the waste tire 106 by acting as a swelling agent to inflate the waste tire 106. Therefore, the thermal decomposition and material transfer may be accelerated and the pyrolysis rate may be increased, and the extraction of the generated oil may be increased, and since the uniform heating is performed at a relatively low temperature during the pyrolysis heating of the waste tire 106, there is no phenomenon in which the pyrolysis residue is coked. It is possible to maintain uniform quality.

In this case, the carbon black, which is a pyrolysis residue of the waste tire 106, is separated through the carbon black and the iron core separator 11 and then flows into the carbon black storage tank 17 through the carbon black cooling device 12 and is stored therein. Iron cores are collected after being separated and discharged through the carbon black and iron core separator (11).

In addition, the waste tire 106 except for the carbon black and the iron core is thermally decomposed to be released in the form of oil vapor and residue. The oil vapor discharged as described above is subjected to a sludge treatment, oil-water separation, hydrodesulfurization, desulfurization treatment, etc. while passing through the condenser 13 composed of the first hydrocarbon condenser 130 and the second hydrocarbon condenser 131. Through the same process, the oil is separated into heavy oil and light oil and flows into the oil storage tank 16 to be stored.

In addition, the non-condensable gas is introduced into the desulfurization scrubber 14, undergoes desulfurization, and then flows into and is stored in the gas storage tank 15 and then flows back into the generator 18 to be used as fuel.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the thermal decomposition oilification apparatus for polymer waste using microwave according to the present invention is uniformly heated as it is, regardless of the shape of polymer waste using microwave without undergoing a pretreatment process for grinding the polymer waste. It can be thermally decomposed to recycle the polymer waste, so that it can be thermally and uniformly decomposed with the waste oil at a relatively low temperature so that it can be decomposed quickly by promoting heat transfer and mass transfer. This prevents water from caulking and provides oil of uniform quality. It also requires less equipment for the pretreatment process, which results in less installation area, simpler control and use of the device, and significantly reduced installation costs. Devised a very useful It is

Claims (2)

In the pyrolysis oilification apparatus of polymer waste, A microwave reactor for introducing the polymer waste together with the waste oil and heating the waste oil by microwaves to pyrolyze the polymer waste using the waste oil as a heating medium; A carbon black and iron core separation device for separating carbon black and iron core from the polymer waste pyrolyzed in connection with the microwave reactor; A condensation device connected to the microwave reactor and dividing the oil vapor discharged from the microwave reactor into heavy oil and light oil to discharge into the oil storage tank; A desulfurization scrubber connected to the condenser to remove sulfur of the non-condensable gas that has passed through the condenser, and then discharged to a gas storage tank; A generator connected to the oil storage tank and the gas storage tank and operated using oil or gas stored in the oil storage tank and the gas storage tank as fuel; And A pyrolysis oilification apparatus for polymer waste using microwaves, comprising a heat exchanger configured to be connected to the generator and the microwave reactor to heat the microwave reactor by heat exchange with the generator as the generator operates. The method of claim 1, The microwave reactor is a reactor in which polymer waste and waste oil are put in a circular form not crushed by a separate grinder therein; A microwave distributor mounted on one side of the reactor to uniformly inject microwave into the reactor to induce uniform pyrolysis from polymer waste; A wave guide connected to the microwave distributor and one end thereof to guide microwaves; A magnetron installed to be connected to the wave guide to generate microwaves; And A pyrolysis oilification apparatus for polymer waste using microwaves, characterized in that the microwave power supply is connected to the magnetron.

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