CN110743320A - Organic waste gas treatment device - Google Patents

Abstract

The invention provides an organic waste gas treatment device, which comprises a combustion chamber and an adsorption tank, wherein an air inlet pipe is arranged on one side of the adsorption tank; a connecting pipe and a desorption pipe are arranged between the combustion chamber and the adsorption tank, and the connecting pipe is respectively connected with the combustion chamber and the adsorption tank; the desorption pipe is respectively connected with the combustion chamber and the adsorption box, and a desorption fan is arranged on the desorption pipe; the top of the combustion chamber is provided with an atomization device, and the atomization device comprises a combustion improver bin, a spray head and an air pump; the spray nozzle is respectively connected with the combustion improver bin and the air pump; an activated carbon scattering device and an activated carbon pushing device are arranged in the adsorption box; the top of adsorption tank is equipped with the backward flow mouth, and one side lower extreme of combustion chamber is equipped with the gas outlet, gas outlet and backward flow mouth intercommunication. The invention greatly improves the contact area of the organic waste gas and the combustion improver and improves the combustion rate of the organic waste gas; and the contact area between the activated carbon and the organic waste gas is increased, the utilization rate of the activated carbon is improved, and the treatment effect is ensured.

Description

Organic waste gas treatment device

Technical Field

The invention relates to the technical field of waste gas treatment, in particular to an organic waste gas treatment device.

Background

With the increasing awareness of environmental protection, the requirement for waste gas treatment, especially organic waste gas, is also increasing. The organic waste gas treatment generally adopts an adsorption method or a combustion method or a combination of the two methods, and the adsorption transfer method is to utilize adsorbents such as active carbon, clay and the like with adsorption capacity to carry out adsorption treatment on the organic waste gas; the combustion method is to oxidize and burn organic waste gas into water, carbon dioxide and other non-toxic and harmless substances to be discharged into the environment under the urging of a combustion improver.

However, in the waste gas treatment device in the prior art, the contact area of the combustion improver and the organic waste gas is small, so that the organic waste gas is not completely combusted, and harmful substances are still discharged into the atmosphere after the combustion; in addition, in the adsorption method, adsorbents such as activated carbon are stacked together, so that only the exposed adsorbent can adsorb the organic waste gas, and the adsorbent positioned in the adsorption method cannot well contact the organic waste gas, thereby influencing the adsorption effect; when the outer adsorbent is saturated, the adsorption resistance of the inner adsorbent is increased, so that the utilization rate of the adsorbent is low, and the adsorption effect is influenced.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an organic waste gas treatment device which can effectively adsorb and combust organic waste gas, and has high utilization rate of activated carbon and good organic waste gas treatment effect.

In order to achieve the purpose, the invention adopts the following technical scheme:

an organic waste gas treatment device comprises a combustion chamber and an adsorption tank, wherein an air inlet pipe is arranged on one side of the adsorption tank, which is far away from the combustion chamber;

a connecting pipe and a desorption pipe are arranged between the combustion chamber and the adsorption box, and two ends of the connecting pipe are respectively connected with the combustion chamber and the upper part of the adsorption box; two ends of the desorption pipe are respectively connected with the upper part of the combustion chamber and the lower part of the adsorption box, and a desorption fan is arranged on the desorption pipe;

the top of the combustion chamber is provided with an atomization device, and the atomization device comprises a combustion improver bin, a spray head and an air pump; the spray head is respectively connected with the combustion improver bin and the air pump;

an activated carbon scattering device and an activated carbon pushing device are arranged in the adsorption box, the activated carbon scattering device is obliquely arranged in the adsorption box, and one end, close to the air inlet pipe, of the activated carbon scattering device is lower than the other end of the activated carbon scattering device;

the activated carbon pushing device is horizontally arranged at the bottom of the adsorption box, the output end of the activated carbon pushing device is close to the lower end of the activated carbon scattering device, and the activated carbon pushing device can push activated carbon to the lower end of the activated carbon scattering device;

the top of adsorption tank is equipped with the backward flow mouth, the combustion chamber is kept away from one side lower extreme of adsorption tank is equipped with the gas outlet, the gas outlet with the backward flow mouth intercommunication.

Furthermore, the backflow port is connected with a waste gas backflow pipe, an air outlet pipe is arranged in the air outlet, and the waste gas backflow pipe is connected with the air outlet pipe.

Furthermore, the waste gas return pipe is U-shaped, and the length of one end of the waste gas return pipe connected with the return port is smaller than that of one end of the waste gas return pipe connected with the air outlet pipe.

Furthermore, the combustion improver bin is connected with the spray nozzle through an inclined pipe, and one end of the inclined pipe connected with the combustion improver bin is higher than one end of the inclined pipe connected with the spray nozzle.

Furthermore, a pump inlet pipe is arranged at the top of the air pump, a pump outlet pipe is arranged on one side of the air pump close to the spray head, and the pump outlet pipe is connected with the spray head.

Further, a first end of the connecting pipe is connected with the combustion chamber, and a second end of the connecting pipe is connected with the adsorption tank and is lower than the first end of the connecting pipe; the first end of the desorption pipe is connected with the combustion chamber and is higher than the first end of the connecting pipe, and the second end of the desorption pipe is connected with the adsorption tank and is lower than the second end of the connecting pipe.

Further, spill active carbon device and contain actuating mechanism and chain, actuating mechanism can drive the chain removes, equidistant a plurality of lifting plates that are equipped with on the chain, lifting plates with the chain sets up perpendicularly.

Further, actuating mechanism contains two sprockets and first motor, two the sprocket respectively through the mounting bracket with the top and the bottom of adsorption tank are connected, first motor with be located the adsorption tank bottom the sprocket is connected, the chain is located two respectively the cover is in on the sprocket.

Further, it contains second motor and pivot to push away the active carbon device, the second motor with the one end of pivot is connected, be equipped with a plurality of spiral pay-off swoves in the pivot, it is a plurality of spiral pay-off sword is in equidistant setting in the pivot.

Further, the second motor is located the outside of adsorption tank, the pivot is located the inside of adsorption tank, the one end of pivot is passed the lateral wall of adsorption tank with the second motor is connected, the pivot is passed the lateral wall department of adsorption tank is equipped with seal structure.

Compared with the prior art, the invention has the beneficial technical effects that: according to the organic waste gas treatment device, the combustion chamber and the adsorption box are arranged at the same time, and organic waste gas circulates between the adsorption box and the combustion chamber until all the organic waste gas is adsorbed or combusted; the atomization device is arranged to spray the combustion improver into the combustion chamber, so that the contact area of the organic waste gas and the combustion improver is greatly increased, and the combustion rate of the organic waste gas is increased; in addition, the active carbon scattering device and the active carbon pushing device are arranged and cooperate to enable the active carbon to circularly flow in the adsorption box, so that the contact area of the active carbon and the organic waste gas is increased, the utilization rate of the active carbon is improved, and the treatment effect is ensured.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an atomizing device according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an activated carbon scattering device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an activated carbon pushing device in an embodiment of the present invention.

In the figure: 1. a combustion chamber; 2. an air outlet pipe; 3. an atomizing device; 31. a combustion improver bin; 32. a spray head; 33. an inclined tube; 34. an air pump; 35. a pump inlet pipe; 36. a pump-out tube; 4. an adsorption device; 41. an adsorption tank; 42. an active carbon scattering device; 421. a chain; 422. a lifting plate; 423. a sprocket; 424. a mounting frame; 425. a first motor; 43. an active carbon pushing device; 431. a rotating shaft; 432. a spiral feeding knife; 433. a second motor; 5. an air inlet pipe; 6. a connecting pipe; 7. an exhaust gas return pipe; 8. a desorption fan; 9. and (4) desorbing the tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention, are within the scope of the invention.

The technical scheme of the invention is further explained in detail by combining the drawings in the specification.

As shown in fig. 1-4, an organic waste gas treatment device comprises a combustion chamber 1 and an adsorption device 4, wherein the adsorption device 4 comprises an adsorption tank 41, activated carbon is placed in the adsorption tank 41, and an air inlet pipe 5 is arranged on one side of the adsorption tank 41 far away from the combustion chamber 1;

a connecting pipe 6 and a desorption pipe 9 are arranged between the combustion chamber 1 and the adsorption tank 41, two ends of the connecting pipe 6 are respectively connected with the upper parts of the combustion chamber 1 and the adsorption tank 4, and the organic waste gas enters the adsorption tank 41 through an air inlet pipe 5 and is adsorbed by the activated carbon in the adsorption tank 41; organic waste gas which is not adsorbed by the active carbon in time enters the combustion chamber 1 through the connecting pipe 6;

two ends of a desorption pipe 9 are respectively connected with the upper part of the combustion chamber 1 and the lower part of the adsorption box 4, and a desorption fan 8 is arranged on the desorption pipe 9; the desorption fan 8 can send high-temperature gas after catalytic combustion in the combustion chamber 1 into the adsorption tank 7 through the desorption pipe 9, and the high-temperature gas can desorb and recycle activated carbon which is adsorbed and saturated in the adsorption tank 7;

the top of the combustion chamber 1 is provided with an atomization device 3, and the atomization device 3 comprises a combustion improver bin 31, a spray head 32 and an air pump 34; the nozzle 32 is respectively connected with the combustion improver bin 31 and the air pump 34; the combustion improver bin 31 is internally provided with a combustion improver, and the combustion improver bin 31 can send the combustion improver into the combustion chamber 1 through the spray head 32;

the air pump 34 can send air in the external environment into the nozzle 32, the air is contacted with the combustion improver in the nozzle 32 and breaks up the combustion improver, so that the combustion improver enters the combustion chamber 1 in an atomized state, the contact area of the combustion improver and the organic waste gas is effectively increased, oxygen is provided for the combustion of the organic waste gas, and the combustion rate of the organic waste gas is improved;

an activated carbon scattering device 42 and an activated carbon pushing device 43 are arranged in the adsorption box 41, the activated carbon scattering device 42 is obliquely arranged in the adsorption box 41, and one end, close to the air inlet pipe 5, of the activated carbon scattering device 42 is lower than the other end of the activated carbon scattering device; the activated carbon scattering device 42 can move the activated carbon at the bottom of the adsorption tank 41 to a high position and scatter the activated carbon downwards, so that the contact area and the contact time of the activated carbon and the organic waste gas are increased, and the adsorption effect and the utilization rate of the activated carbon are improved;

the activated carbon pushing device 43 is horizontally arranged at the bottom of the adsorption box 41, the output end of the activated carbon pushing device 43 is close to the lower end of the activated carbon scattering device 42, and the activated carbon pushing device 43 can push the activated carbon to the lower end of the activated carbon scattering device 42;

the activated carbon scattering device 42 continuously moves the activated carbon close to the lower end of the activated carbon scattering device to the high position of the upper end of the activated carbon scattering device and falls down, the activated carbon pushing device 43 pushes the activated carbon falling from the upper end of the activated carbon scattering device 42 to the lower end of the activated carbon scattering device 42, and the circulation is performed, so that the activated carbon is ensured to circularly move in the adsorption box 41, and the adsorption effect is ensured;

the top of the adsorption tank 41 is provided with a return port, the lower end of one side of the combustion chamber 1 far away from the adsorption tank is provided with an air outlet, and the air outlet is communicated with the return port;

during treatment, organic waste gas enters the adsorption tank 41 through the air inlet pipe 5 for adsorption, and unadsorbed organic waste gas enters the combustion chamber 1 for combustion; the incompletely combusted organic waste gas can return to the adsorption tank 41 through the gas outlet and the return port, and is adsorbed again by the activated carbon in the adsorption tank 41;

when the activated carbon is adsorbed and saturated, the desorption fan 8 starts to work, high-temperature gas in the combustion chamber 1 is sent into the adsorption box 4 to desorb the activated carbon with saturated adsorption, and the desorbed organic waste gas flows out of the adsorption box 41 through the return opening and enters the combustion chamber 1 through the gas outlet to be combusted;

in this way, the organic waste gas is cyclically adsorbed and combusted between the adsorption tank 41 and the combustion chamber 1 until all of the organic waste gas is adsorbed or combusted, thereby ensuring the treatment effect.

In some embodiments of the invention, the return port is connected with a waste gas return pipe 7, an air outlet pipe 2 is arranged in the air outlet, and the waste gas return pipe 7 is connected with the air outlet pipe 2; the gas outlet pipe 2 is communicated with the waste gas return pipe 7 to form a gas channel between a gas outlet and a return port, so that the adsorption tank 41 is communicated with the combustion chamber 1; the organic waste gas desorbed from the active carbon enters the combustion chamber 1 for combustion through the waste gas return pipe 7 and the gas outlet pipe 2.

Preferably, the flue gas recirculation pipe 7 is U-shaped, and the length of the end of the flue gas recirculation pipe 7 connected with the recirculation port is smaller than the length of the end of the flue gas recirculation pipe connected with the outlet pipe 2, so as to match the air outlet at the lower end of the combustion chamber 1 and the recirculation port at the top of the adsorption tank 41.

Optionally, the combustion improver bin 31 is connected with the nozzle 32 through an inclined pipe 33, and one end of the inclined pipe 33 connected with the combustion improver bin 31 is higher than one end of the inclined pipe connected with the nozzle 32, so that the combustion improver can reach the nozzle through the inclined pipe 33 by self gravity, additional assistance is not needed, and resources are saved.

In another embodiment of the present invention, the top of the air pump 34 is provided with a pump-in pipe 35, one side of which close to the spray head 32 is provided with a pump-out pipe 36, and the pump-out pipe 36 is connected with the spray head 32; the air pump 34 sucks the outside air through the pump inlet pipe 35, and then the outside air is discharged into the spray head 32 through the pump outlet pipe 36;

the lower end of the nozzle 32 is funnel-shaped, so that the pressure of the combustion improver and air in the nozzle 32 is increased when the combustion improver and the air are sprayed out, the atomization effect of the combustion improver is improved, and the contact area of the combustion improver and the organic waste gas is further increased.

In some embodiments of the present invention, the first end of the connecting pipe 6 is connected to the combustion chamber 1, and the second end thereof is connected to the adsorption tank 4 and is lower than the first end thereof, so as to form a gas channel from bottom to top, so that the organic waste gas can enter the combustion chamber 1 more smoothly for combustion;

the first end of the desorption pipe 9 is connected with the combustion chamber 1 and is higher than the first end of the connecting pipe 6, high-temperature gas can float on the top of the combustion chamber 1, when the desorption fan 8 works, the high-temperature gas can be sucked from the first end of the desorption pipe 9, and the second end of the desorption pipe is connected with the adsorption box 4 and is lower than the second end of the connecting pipe 6; the second end of desorption pipe 8 is higher than activated carbon pushing device 43 to make high-temperature gas smoothly enter adsorption tank 4 and desorb the activated carbon in it.

Preferably, the activated carbon scattering device 42 comprises a driving mechanism and a chain 421, the driving mechanism can drive the chain 421 to move, the chain 421 is provided with a plurality of lifting plates 422 at equal intervals, and the lifting plates 422 are arranged perpendicular to the chain 421; in the process that the driving mechanism drives the chain 421 to drive the lifting plate 422 to move, the lifting plate 422 moving to the lower end can scrape the activated carbon at the bottom of the adsorption box 41 onto the chain 421, and synchronously move to the upper end along with the chain 421, and finally fall down; the activated carbon can contact with the organic waste gas in the rising and falling processes, so that the contact time and area of the activated carbon and the organic waste gas are greatly increased, and the adsorption effect and the utilization rate of the activated carbon are improved.

Alternatively, the driving mechanism includes two sprockets 423 and a first motor 425, the two sprockets 423 are respectively connected with the top and the bottom of the suction box 41 through a mounting frame 424, two mounting plates 424 are both located in the suction box 41, and the mounting plates 424 are used for mounting and fixing the sprockets 423; first motor 425 is connected with the sprocket 423 that is located adsorption tank 41 bottom, and two sprockets 423 are located to the cover respectively of chain 421, and first motor 425 can drive the sprocket 423 rotation that is located the lower extreme to drive chain 421 and the sprocket 423 rotation that is located the upper end, realize the removal of active carbon and spill.

In other embodiments of the present invention, the activated carbon pushing device 43 includes a second motor 433 and a rotating shaft 431, the second motor 433 is connected to one end of the rotating shaft 431, the rotating shaft 431 is provided with a plurality of spiral feeding knives 432, and the plurality of spiral feeding knives 432 are arranged on the rotating shaft 431 at equal intervals; the second motor 433 drives the rotating shaft 431 to rotate and drives the spiral feeding knife 432 to rotate, so as to push the activated carbon to move towards the lower end of the activated carbon scattering device 42.

Preferably, the second motor 433 is arranged outside the adsorption tank 41, so that organic waste gas is prevented from entering the second motor 433 and damaging the second motor 433, the service life of the second motor 433 is prolonged, and the use cost is reduced;

the rotating shaft 431 is located inside the adsorption tank 41, one end of the rotating shaft 431 penetrates through the side wall of the adsorption tank 41 to be connected with the second motor 433, and a sealing structure is arranged at the position where the rotating shaft 431 penetrates through the side wall of the adsorption tank 41 to ensure that the organic waste gas cannot leak into the external environment.

According to the organic waste gas treatment device, the combustion chamber and the adsorption box are arranged at the same time, and organic waste gas circulates between the adsorption box and the combustion chamber until all the organic waste gas is adsorbed or combusted; the atomization device is arranged to spray the combustion improver into the combustion chamber, so that the contact area of the organic waste gas and the combustion improver is greatly increased, and the combustion rate of the organic waste gas is increased; in addition, the active carbon scattering device and the active carbon pushing device are arranged and cooperate to enable the active carbon to circularly flow in the adsorption box, so that the contact area of the active carbon and the organic waste gas is increased, the utilization rate of the active carbon is improved, and the treatment effect is ensured.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. An organic waste gas treatment device comprises a combustion chamber and an adsorption tank, wherein an air inlet pipe is arranged on one side of the adsorption tank, which is far away from the combustion chamber;

the adsorption device is characterized in that a connecting pipe and a desorption pipe are arranged between the combustion chamber and the adsorption box, and two ends of the connecting pipe are respectively connected with the combustion chamber and the upper part of the adsorption box; two ends of the desorption pipe are respectively connected with the upper part of the combustion chamber and the lower part of the adsorption box, and a desorption fan is arranged on the desorption pipe;

the top of the combustion chamber is provided with an atomization device, and the atomization device comprises a combustion improver bin, a spray head and an air pump; the spray head is respectively connected with the combustion improver bin and the air pump;

an activated carbon scattering device and an activated carbon pushing device are arranged in the adsorption box, the activated carbon scattering device is obliquely arranged in the adsorption box, and one end, close to the air inlet pipe, of the activated carbon scattering device is lower than the other end of the activated carbon scattering device;

the activated carbon pushing device is horizontally arranged at the bottom of the adsorption box, the output end of the activated carbon pushing device is close to the lower end of the activated carbon scattering device, and the activated carbon pushing device can push activated carbon to the lower end of the activated carbon scattering device;

the top of adsorption tank is equipped with the backward flow mouth, the combustion chamber is kept away from one side lower extreme of adsorption tank is equipped with the gas outlet, the gas outlet with the backward flow mouth intercommunication.

2. The organic waste gas treatment device according to claim 1, wherein the return port is connected to a waste gas return pipe, an air outlet pipe is provided in the air outlet, and the waste gas return pipe is connected to the air outlet pipe.

3. The organic waste gas treatment device according to claim 2, wherein the waste gas return pipe is U-shaped, and a length of an end of the waste gas return pipe connected to the return port is smaller than a length of an end of the waste gas return pipe connected to the outlet pipe.

4. The organic waste gas treatment device according to claim 1, wherein the combustion improver bin is connected with the spray nozzle through an inclined pipe, and one end of the inclined pipe connected with the combustion improver bin is higher than one end of the inclined pipe connected with the spray nozzle.

5. The organic waste gas treatment device according to claim 1, wherein a pump-in pipe is disposed at a top of the air pump, and a pump-out pipe is disposed at a side of the air pump close to the spray head, and the pump-out pipe is connected to the spray head.

6. The organic waste gas treatment device according to claim 1, wherein the first end of the connection pipe is connected to the combustion chamber, and the second end thereof is connected to the adsorption tank and is lower than the first end thereof; the first end of the desorption pipe is connected with the combustion chamber and is higher than the first end of the connecting pipe, and the second end of the desorption pipe is connected with the adsorption tank and is lower than the second end of the connecting pipe.

7. The organic waste gas treatment device according to claim 1, wherein the activated carbon scattering device comprises a driving mechanism and a chain, the driving mechanism can drive the chain to move, a plurality of lifting plates are arranged on the chain at equal intervals, and the lifting plates are arranged perpendicular to the chain.

8. The organic waste gas treatment device according to claim 7, wherein the driving mechanism comprises two chain wheels and a first motor, the two chain wheels are respectively connected with the top and the bottom of the adsorption tank through a mounting rack, the first motor is connected with the chain wheel at the bottom of the adsorption tank, and the two chain wheels are respectively sleeved with the chain.

9. The organic waste gas treatment device according to claim 1, wherein the activated carbon pushing device comprises a second motor and a rotating shaft, the second motor is connected with one end of the rotating shaft, a plurality of spiral feeding knives are arranged on the rotating shaft, and the spiral feeding knives are arranged on the rotating shaft at equal intervals.

10. The organic waste gas treatment device according to claim 9, wherein the second motor is disposed outside the adsorption tank, the rotating shaft is disposed inside the adsorption tank, one end of the rotating shaft penetrates through a side wall of the adsorption tank and is connected to the second motor, and a sealing structure is disposed at a position where the rotating shaft penetrates through the side wall of the adsorption tank.

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