CN113446610A - Organic waste gas pretreatment device based on regenerative oxidation incinerator and use method - Google Patents

Abstract

The invention belongs to the technical field of organic waste gas treatment, and particularly relates to an organic waste gas pretreatment device based on a regenerative oxidation incinerator and a use method thereof, aiming at the problem that the existing oxidation incinerator has high organic waste gas flammability during the chemical combustion organic waste gas treatment process, and if the organic waste gas is continuously combusted, pipelines or furnaces are easy to explode, so that dangerous accidents are caused. The air diffusing holes on the air diffusing hopper can disperse air flow with high pressure intensity into the whole sphere gradually, and then the organic waste gas is ignited by the ignition rod to be fully combusted in the sphere, and meanwhile, the spherical air bag is prepared for next organic waste gas combustion and inflation.

Description

Organic waste gas pretreatment device based on regenerative oxidation incinerator and use method

Technical Field

The invention relates to the technical field of organic waste gas treatment, in particular to an organic waste gas pretreatment device based on a regenerative oxidation incinerator and a using method thereof.

Background

The waste gas incinerator is a device which utilizes the heat generated by the combustion of auxiliary fuel to raise the temperature of combustible harmful gas to reaction temperature so as to generate oxidative decomposition. The waste gas incinerator has a direct combustion type and a heat accumulation type. By "direct combustion" is meant that only the exhaust gases are burned off and heat is not recovered. However, most of waste gas incinerators used in the copper-clad plate industry recover heat to heat a sizing machine. In fact, the principles of "direct-fired" and "regenerative" are the same, the difference being merely a distinction between the presence or absence of regenerative material in the furnace. The waste gas incinerator is suitable for treating waste gas of spraying and drying equipment and purifying harmful gas emitted by petrochemical industry, medicine industry and the like.

Along with the development of society, heavy industry is more and more, and many chemical plants all can produce a lot of organic waste gas in the production process, and organic waste gas is often accompanied with a lot of harmful gas that is unfavorable for the air, consequently can not directly discharge, also has a lot of devices that handle organic waste gas at present, and most treatment mode has adopted two kinds of modes of physical adsorption or chemical reaction to handle waste gas.

However, in the actual use process, the existing oxidation incinerator has high organic waste gas flammability during the process of chemically burning organic waste gas, if the organic waste gas is continuously burned, the organic waste gas is easy to explode in a pipeline or a furnace, so that dangerous accidents are caused, and the practicability is poor.

Disclosure of Invention

Based on the technical problem that the organic waste gas has high flammability in the chemical combustion organic waste gas treatment process of the existing oxidation incinerator, if the organic waste gas is continuously combusted, pipelines or the inside of the incinerator is easy to explode, and accordingly dangerous accidents are caused, the invention provides an organic waste gas pretreatment device based on a heat accumulation type oxidation incinerator and a using method thereof.

The invention provides an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator and a using method thereof.

Preferably, the preheating mechanism comprises a preheating box, the outer wall of the air inlet cylinder is provided with an insertion groove, the inner wall of the insertion groove is provided with a sealing insertion rail, the inner wall of the sealing insertion rail is provided with a drying filter box, and the inner wall of the drying filter box is filled with a drying agent.

Preferably, the oxygen mechanism comprises a gas storage tank, an air suction pump is arranged on the outer wall of the gas storage tank, and the input end of the air suction pump is communicated with the inside of the gas storage tank.

Preferably, the gas mixing mechanism comprises a slide rail, a slide ring is connected to the inner wall of the slide rail in a sliding manner, and a rotating ring is arranged on the inner wall of the slide ring.

Preferably, the inner wall of the swivel is provided with air inlet holes distributed at equal intervals, and the inner wall of the air inlet holes is provided with an air blocking bucket which is matched with the air storage tank for use.

Preferably, the ash removing mechanism comprises an air inlet hopper and a water storage tank, the air inlet hopper is arranged at the outlet of the air storage tank, and an air inlet pipe is inserted at the air outlet end of the air inlet hopper.

Preferably, a ceiling is arranged at one end of the air inlet pipe, a cavity is formed in the ceiling, and fixing holes distributed at equal intervals are formed in the inner wall of the cavity.

Preferably, the inner wall of the fixing hole is spliced with an air delivery pipe, and the air delivery pipe is spliced inside the water storage tank.

An organic waste gas pretreatment device based on a regenerative oxidation incinerator and a using method thereof comprise the following steps:

s1: when the pressure limiting valve is set to be higher than the maximum pressure, the pressure limiting valve is automatically opened, and at the moment, all the organic waste gas in the spherical air bag is sprayed out from the outlet of the spherical air bag;

s2: the sprayed organic waste gas enters the air dispersing hopper, the air dispersing holes in the air dispersing hopper can disperse air flow with large pressure intensity to the whole sphere gradually, at the moment, people can start the air suction pump to suck air into the air storage box, the air in the air storage box can push the air blocking hopper and the rotating ring to rotate along the sliding rail through the air inlet holes, and the air and the organic waste gas can be fully mixed while rotating, so that a full combustion-supporting environment can be provided for the organic waste gas;

s3: this moment start-up ignition stick and ignite organic waste gas, let organic waste gas in the inside abundant burning of spheroid, can produce a lot of solid particles in the organic waste gas after the burning, under the drive that the air flows, waste gas after the burning enters into among the intake pipe through the air inlet fill, then enter into to the canopy through the intake pipe among, finally enter into the aquatic in the water storage tank through the gas-supply pipe, thereby can wash the organic waste gas after the burning, prevent excessive solid particle along with during gas enters into the atmosphere, clean environmental protection.

The beneficial effects of the invention are as follows:

1. the invention is provided with the air inlet cylinder, the air collecting hopper, the spherical air bag, the pressure limiting valve, the air dispersing hopper and the air dispersing hole, when organic waste gas enters the spherical air bag through the air collecting hopper, the pressure inside the spherical air bag is increased under the action of the organic waste gas, so that the volume of the spherical air bag is increased, when the pressure inside the spherical air bag is higher than the maximum pressure set by the pressure limiting valve, the pressure limiting valve is automatically opened, at the moment, all the organic waste gas in the spherical air bag is sprayed out from the outlet of the spherical air bag, the sprayed organic waste gas enters the air dispersing hopper, the air dispersing hole on the air dispersing hopper can disperse the air flow with high pressure to gradually disperse the whole ball, then the organic waste gas is ignited by the ignition rod, the organic waste gas is fully combusted inside the ball, and the spherical air bag is prepared for next organic waste gas combustion and inflation, through the intermittent incineration treatment of the organic waste gas, the pipeline can be blocked in the combustion process, so that the explosion caused by air blowby at all positions in the pipeline is prevented, and meanwhile, the insufficient combustion caused by the organic waste gas continuously entering the sphere can be prevented.

2. According to the invention, the air suction pump, the gas storage box, the sliding rail, the rotating ring, the sliding ring and the gas blocking hopper are arranged, air is sucked into the gas storage box through the air suction pump, the air in the gas storage box can push the gas blocking hopper and the rotating ring to rotate along the sliding rail through the air inlet hole, and the air and the organic waste gas can be fully mixed while rotating, so that a sufficient combustion-supporting environment can be provided for the organic waste gas, and meanwhile, the organic waste gas can be uniformly distributed in the sphere, so that the organic waste gas can be fully combusted.

3. According to the invention, the ceiling, the water storage tank, the air inlet pipe and the air delivery pipe are arranged, so that a lot of solid particles can be generated in the combusted organic waste gas, the combusted waste gas enters the air inlet pipe through the air inlet hopper under the driving of air flow, then enters the ceiling through the air inlet pipe, and finally enters the water in the water storage tank through the air delivery pipe, so that the combusted organic waste gas can be cleaned, excessive solid particles are prevented from entering the atmosphere along with the air, and the device is clean and environment-friendly.

Drawings

FIG. 1 is a schematic view of the overall structure of an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator according to the present invention;

FIG. 2 is a three-dimensional structure diagram of an air dispersing hopper of an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator, according to the present invention;

FIG. 3 is a perspective view of a slide rail of an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator according to the present invention;

FIG. 4 is a schematic view of the internal structure of an air dispersing hopper of an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator according to the present invention;

FIG. 5 is a perspective view of an air inlet funnel of an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator according to the present invention;

fig. 6 is a three-dimensional structure diagram of a swivel of an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator according to the present invention.

In the figure: 1 ceiling, 2 water storage tanks, 3 air inlet hoppers, 4 air storage tanks, 5 preheating tanks, 6 air inlet cylinders, 7 drying filter tanks, 8 spheres, 9 air suction pumps, 10 ignition rods, 11 air collecting hoppers, 12 spherical air bags, 13 air dispersing holes, 14 air dispersing hoppers, 15 pressure limiting valves, 16 slide rails, 17 swivel rings, 18 air blocking hoppers, 19 air flow guide bolts, 20 air conveying pipes, 21 air inlet pipes, 22 air inlet holes and 23 slip rings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, an organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator and a using method thereof, comprising a sphere 8, wherein the outer walls of two sides of the sphere 8 are respectively provided with an air inlet cylinder 6 and an air outlet cylinder, the inner wall of the air inlet cylinder 6 is provided with a preheating mechanism, the inner wall of the air inlet cylinder 6 is provided with an air collecting hopper 11, one end of the air collecting hopper 11 is provided with a spherical air bag 12, the outer wall of the spherical air bag 12 is provided with a pressure limiting valve 15, the outer wall of the sphere 8 is provided with an ignition rod 10, the inner wall of the sphere 8 is provided with an air dispersing hopper 14, the outer wall of the air dispersing hopper 14 is provided with air dispersing holes 13 distributed at equal intervals, the inner wall of the air dispersing hole 13 is provided with air flow guide bolts 19 distributed at equal intervals, the inner wall of the sphere 8 is provided with an air mixing mechanism, the outer wall of the sphere 8 is provided with an oxygen mechanism, one end of the air storage cylinder is provided with a dust removing mechanism, when organic waste gas enters the spherical air bag 12 through the air collecting hopper 11, the pressure inside the spherical air bag 12 is increased under the action of the organic waste gas, so the volume of the spherical air bag 12 is also increased, when the pressure inside the spherical air bag 12 is higher than the maximum pressure set by the pressure limiting valve 15, the pressure limiting valve 15 is automatically opened, at the moment, the organic waste gas in the spherical air bag 12 is all sprayed out from the outlet of the spherical air bag 12, the sprayed organic waste gas enters the air dispersing hopper 14, the air dispersing holes 13 on the air dispersing hopper 14 can disperse the airflow with high pressure gradually into the whole sphere 8, then the organic waste gas is ignited by the ignition rod 10, the organic waste gas is fully combusted in the sphere 8, meanwhile, the spherical air bag 12 is prepared for next combustion and inflation of the organic waste gas, the pipeline can be blocked in the combustion process by the intermittent incineration treatment of the organic waste gas, and the explosion caused by air leakage at four positions in the pipeline is prevented, and simultaneously, insufficient combustion caused by continuous entry of organic waste gas into the spherical body 8 can be prevented.

The preheating mechanism comprises a preheating box 5, an inserting groove is formed in the outer wall of an air inlet cylinder 6, a sealing inserting rail is arranged on the inner wall of the inserting groove, a drying filtering box 7 is arranged on the inner wall of the sealing inserting rail, and drying agents are filled in the inner wall of the drying filtering box 7.

The oxygen mechanism comprises a gas storage box 4, wherein the outer wall of the gas storage box 4 is provided with an air suction pump 9, and the input end of the air suction pump 9 is communicated with the inside of the gas storage box 4.

The gas mixing mechanism comprises a slide rail 16, the inner wall of the slide rail 16 is connected with a slide ring 23 in a sliding way, and the inner wall of the slide ring 23 is provided with a rotating ring 17.

According to the invention, the inner wall of the rotating ring 17 is provided with the air inlet holes 22 which are distributed at equal intervals, the inner wall of the air inlet hole 22 is provided with the air blocking hopper 18, the air blocking hopper 18 is matched with the air storage tank 4 for use, the sprayed organic waste gas enters the air dispersing hopper 14, the air dispersing holes 13 on the air dispersing hopper 14 can disperse air flow with very high pressure intensity to gradually disperse the air flow into the whole sphere 8, at the moment, people can start the air suction pump 9 to suck the air into the air storage tank 4, the air in the air storage tank 4 can push the air blocking hopper 18 and the rotating ring 17 to rotate along the sliding rail 16 through the air inlet holes 22, and the air and the organic waste gas can be fully mixed while rotating, so that a sufficient combustion-supporting environment can be provided for the organic waste gas.

The ash removing mechanism comprises an air inlet hopper 3 and a water storage tank 2, wherein the air inlet hopper 3 is arranged at an outlet of the air storage tank, and an air inlet pipe 21 is inserted at an air outlet end of the air inlet hopper 3.

In the invention, one end of the air inlet pipe 21 is provided with the ceiling 1, the interior of the ceiling 1 is provided with a cavity, and the inner wall of the cavity is provided with fixing holes distributed at equal intervals.

According to the invention, the air pipe 20 is inserted into the inner wall of the fixing hole, the air pipe 20 is inserted into the water storage tank 2, a lot of solid particles can be generated in the combusted organic waste gas, the combusted waste gas enters the air inlet pipe 21 through the air inlet hopper 3 under the driving of air flow, then enters the ceiling 1 through the air inlet pipe 21, and finally enters the water in the water storage tank 2 through the air pipe 20, so that the combusted organic waste gas can be cleaned, excessive solid particles are prevented from entering the atmosphere along with the gas, and the air-cleaning air-conditioner is clean and environment-friendly.

An organic waste gas pretreatment device based on a regenerative oxidation incinerator and a using method thereof comprise the following steps:

s1: when the device is used, organic waste gas is firstly introduced into the device through the gas inlet cylinder 6, at the moment, along with the fact that more and more organic waste gas enters the spherical air bag 12, the pressure inside the spherical air bag 12 is increased under the action of the organic waste gas, so that the volume of the spherical air bag 12 is increased, when the pressure inside the spherical air bag 12 is greater than the maximum pressure set by the pressure limiting valve 15, the pressure limiting valve 15 is automatically opened, and at the moment, all the organic waste gas in the spherical air bag 12 is sprayed out from the outlet of the spherical air bag 12;

s2: the sprayed organic waste gas enters the air dispersing hopper 14, the air dispersing holes 13 on the air dispersing hopper 14 can disperse air flow with large pressure intensity to the whole sphere 8 gradually, at the moment, people can start the air suction pump 9 to suck air into the air storage box 4, the air in the air storage box 4 can push the air blocking hopper 18 and the rotating ring 17 to rotate along the sliding rail 16 through the air inlet holes 22, and the air and the organic waste gas can be fully mixed while rotating, so that a sufficient combustion-supporting environment can be provided for the organic waste gas;

s3: start-up ignition rod 10 at this moment and ignite organic waste gas, let organic waste gas in the inside abundant burning of spheroid 8, can produce many solid particles in the organic waste gas after the burning, under the drive that the air flows, waste gas after the burning enters into among the intake pipe 21 through the fill 3 of admitting air, then enter into among the ceiling 1 through intake pipe 21, finally enter into the aquatic in the storage water tank 2 through gas-supply pipe 20, thereby can wash the organic waste gas after the burning, prevent among the excessive solid particle along with gas entering into the atmosphere, clean environmental protection.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. An organic waste gas pretreatment device based on a regenerative oxidation incinerator comprises a ball body (8) and is characterized in that the outer walls of two sides of the ball body (8) are respectively provided with an air inlet cylinder (6) and an air outlet cylinder, the inner wall of the air inlet cylinder (6) is provided with a preheating mechanism, the inner wall of the air inlet cylinder (6) is provided with an air collecting hopper (11), one end of the air collecting hopper (11) is provided with a spherical air bag (12), the outer wall of the spherical air bag (12) is provided with a pressure limiting valve (15), the outer wall of the ball body (8) is provided with an ignition rod (10), the inner wall of the ball body (8) is provided with an air dispersing hopper (14), the outer wall of the air dispersing hopper (14) is provided with air dispersing holes (13) distributed at equal intervals, the inner wall of the air dispersing holes (13) is provided with air flow guide plugs (19) distributed at equal intervals, and the inner wall of the ball body (8) is provided with an air mixing mechanism, the outer wall of the ball body (8) is provided with an oxygen mechanism, and one end of the air storage cylinder is provided with a dust removing mechanism.

2. The organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator, according to claim 1, characterized in that the preheating mechanism comprises a preheating box (5), the outer wall of the air inlet cylinder (6) is provided with a plug groove, the inner wall of the plug groove is provided with a sealing plug rail, the inner wall of the sealing plug rail is provided with a drying filter box (7), and the inner wall of the drying filter box (7) is filled with a drying agent.

3. A pre-treatment device for organic waste gas based on a regenerative thermal oxidation incinerator, wherein the oxygen mechanism comprises a gas storage tank (4), a suction pump (9) is provided on the outer wall of the gas storage tank (4), and the input end of the suction pump (9) is communicated with the inside of the gas storage tank (4).

4. An organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator, according to claim 1, characterized in that said gas mixing mechanism comprises a slide rail (16), a slide ring (23) is slidably connected to the inner wall of the slide rail (16), and a rotary ring (17) is disposed on the inner wall of the slide ring (23).

5. A pre-treatment device for organic waste gas based on a regenerative thermal oxidation incinerator, characterized in that the inner wall of the rotary ring (17) is provided with air inlets (22) distributed at equal intervals, and the inner wall of the air inlets (22) is provided with an air blocking hopper (18), and the air blocking hopper (18) is matched with the air storage tank (4).

6. The organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator, according to claim 1, characterized in that the ash removal mechanism comprises an air inlet hopper (3) and a water storage tank (2), the air inlet hopper (3) is arranged at the outlet of the air storage tank, and an air inlet pipe (21) is inserted into the air outlet end of the air inlet hopper (3).

7. An organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator, according to claim 6, characterized in that one end of the air inlet pipe (21) is provided with a ceiling (1), and the inside of the ceiling (1) is provided with a cavity, and the inner wall of the cavity is provided with fixing holes distributed at equal intervals.

8. The organic waste gas pretreatment device based on a regenerative thermal oxidation incinerator, according to claim 7, characterized in that the air pipe (20) is inserted into the inner wall of the fixing hole, and the air pipe (20) is inserted into the water storage tank (2).

9. An organic waste gas pretreatment device based on a regenerative oxidation incinerator and a using method thereof are characterized by comprising the following steps:

s1: when the device is used, organic waste gas is firstly introduced into the device through the gas inlet cylinder (6), at the moment, along with the fact that more and more organic waste gas enters the spherical air bag (12), the pressure inside the spherical air bag (12) is increased under the action of the organic waste gas, so that the volume of the spherical air bag (12) is increased, when the pressure inside the spherical air bag (12) is greater than the maximum pressure set by the pressure limiting valve (15), the pressure limiting valve (15) is automatically opened, and at the moment, all the organic waste gas in the spherical air bag (12) is sprayed out of an outlet of the spherical air bag (12);

s2: the sprayed organic waste gas enters the air dispersing hopper (14), the air dispersing holes (13) on the air dispersing hopper (14) can disperse air flow with large pressure intensity and gradually disperse the air flow into the whole sphere (8), at the moment, people can start the air suction pump (9) to suck air into the air storage box (4), the air in the air storage box (4) can push the air blocking hopper (18) and the rotating ring (17) to rotate along the sliding rail (16) through the air inlet holes (22), and the air and the organic waste gas can be fully mixed while rotating, so that a sufficient combustion-supporting environment can be provided for the organic waste gas;

s3: start ignition rod (10) this moment and ignite organic waste gas, let organic waste gas in the inside abundant burning of spheroid (8), can produce many solid particles in the organic waste gas after the burning, under the drive that the air flows, waste gas after the burning enters into among intake pipe (21) through air intake fill (3), then enter into among ceiling (1) through intake pipe (21), finally enter into the aquatic in storage water tank (2) through gas-supply pipe (20), thereby can wash the organic waste gas after the burning, prevent excessive solid particle along with among the gas entering the atmosphere, clean environmental protection.

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