CN210097359U - Deodorization system of garbage transfer station - Google Patents

Abstract

The utility model provides a rubbish transfer station deodorization system, including the gas collecting channel that communicates in proper order, spray washing device, plasma reaction unit, packed tower and suction device. The gas collecting hood is arranged at the garbage transfer station and collects the odor in the garbage transfer station. The odor in the garbage transfer station is collected by the gas collecting hood and conveyed to the spraying and washing device, after spraying liquid and odor in the spraying and washing device act and soluble pollutants and particulate matters in the odor are removed, the odor enters the plasma reaction device, active particles generated by the plasma reaction device convert and remove toxic and harmful substances in the odor, the packing tower absorbs acidic substances and toxic and harmful substances remaining in the odor after being treated by the plasma reaction device, and the suction device collects and discharges purified gas treated by the packing tower. A large amount of active particles generated in the plasma discharge process can effectively remove the pollutants which are difficult to degrade in the odor, improve the treatment efficiency of the malodorous gas and realize deep purification.

Description

Deodorization system of garbage transfer station

Technical Field

The utility model relates to a deodorization technical field especially relates to a rubbish transfer station deodorization system, rubbish transfer station deodorization system.

Background

China is large in population, people can manufacture a lot of garbage in daily life and production activities, and with the improvement of environmental protection standards year by year, the traditional garbage treatment mode and efficiency cannot meet the requirements of people on the quality of living environment, and the garbage transfer station can be produced at the right moment. The garbage transfer station classifies and compacts the garbage according to different garbage components, and finally transports the garbage to a garbage disposal plant, so that the efficiency and the safety of garbage disposal are well improved.

However, the garbage transfer station is often bad in odor, and a large number of mosquitoes and flies are easy to propagate, so that the lives of surrounding residents are greatly influenced, the problem that the site selection of the garbage transfer station is difficult or remote is indirectly caused, and the transportation cost is further increased. At the present stage, the garbage transfer station is deodorized mainly by adopting a spraying technology, so that although odor is reduced to a certain extent, the deodorization is not thorough, the problem of water pollution is caused by wastewater generated after a large amount of spraying liquid is applied, the treatment category of pollutants in a system is increased, and the treatment cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a rubbish transfer station deodorization system solves current deodorization technique deodorization thoroughly, sprays the waste water that produces and can arouse water pollution's problem.

In order to solve the problem, the utility model provides a garbage transfer station deodorization system, garbage transfer station deodorization system includes the gas collecting channel, sprays washing device, plasma reaction unit, packed tower and suction device. The gas collecting hood is arranged at the garbage transfer station and collects the odor in the garbage transfer station. The spraying and washing device is communicated with the gas collecting cover through a pipeline. The plasma reaction device is communicated with the spraying and washing device through a pipeline. The packed tower is communicated with the plasma reaction device through a pipeline. The suction device is communicated with the packed tower through a pipeline. The odor in the garbage transfer station is collected by the gas collecting hood and conveyed to the spraying and washing device, after spraying liquid and odor in the spraying and washing device act and soluble pollutants and particulate matters in the odor are removed, the odor enters the plasma reaction device, active particles generated by the plasma reaction device convert and remove toxic and harmful substances in the odor, the packing tower absorbs acidic substances and toxic and harmful substances remaining in the odor after being treated by the plasma reaction device, and the suction device collects and discharges purified gas treated by the packing tower.

According to the utility model discloses an embodiment, the top that sprays the washing device is equipped with the defroster.

According to the utility model discloses an embodiment, the inside that sprays washing device has shower nozzle and packing layer.

According to the utility model discloses an embodiment, the inside that sprays washing device is with one row the mode interval in turn of shower nozzle and one deck packing layer is equipped with multirow shower nozzle and multilayer packing layer.

According to the utility model relates to an embodiment, rubbish transfer station deodorization system still includes the elevator pump, the elevator pump with spray washing device and packed tower and all communicate, spray the washing device inside with the foul smell effect after spray the liquid that sprays deliver to the packed tower and spray inside the packed tower through the elevator pump.

According to the utility model relates to an embodiment, the bottom that sprays washing device has first stock solution storehouse, and first stock solution storehouse has the liquid outlet, and the top and the side of packed tower all are equipped with the shower nozzle, and the liquid outlet in elevator pump and first stock solution storehouse and the shower nozzle of packed tower all communicate.

According to the utility model relates to an embodiment, rubbish transfer station deodorization system still includes the elevator pump, the export of elevator pump and the shower nozzle intercommunication that sprays washing device, spray the washing device inside with the foul smell effect after spray the liquid that sprays and pass through the elevator pump and carry and spray again in spraying washing device.

According to the utility model discloses an embodiment, one side of packed tower is equipped with and receives hydrophone and defroster.

According to the utility model discloses an embodiment, the bottom of packed tower is equipped with second stock solution storehouse, second stock solution storehouse and spray washing device intercommunication.

Compared with the prior art, the technical scheme has the following advantages:

the utility model adopts the gas collecting hood, so that the rotten odor and the toxic and harmful substances emitted in the garbage compression process are quickly pumped to the spraying and washing device through the gas collecting hood, thereby effectively reducing the dissipation of the odor in the air and reducing the harm to the health of the working people of the garbage transfer station;

the utility model discloses an adopt the mode that plasma reaction unit and traditional technology combined together, utilize a large amount of active particles that plasma discharge process produced for example high energy electron, strong oxidizing property free radical to the part poisonous and harmful substance in the foul smell change and get rid of, can effectively get rid of the difficult degradation pollutant in the foul smell, improved foul gas's treatment effeciency, realize deep purification. More importantly, part of ozone generated in the discharging process of the plasma reaction device is used for oxidizing the pollution components in the odor; and the other part of the treated odor is carried into the packed tower and dissolved in the spraying liquid, and the spraying liquid in the packed tower finally flows back into the spraying and washing device, so that the reutilization is realized, the water saving is realized, the ozone discharge can be reduced, and the influence of the ozone discharge on the environment is reduced. And this is equivalent to establish a liquid circulation system composed of a spray washing device and a packed tower, and because the spray liquid containing strong oxidizing free radicals and ozone flowing back from the packed tower is converged into the spray washing device, the using amount of the spray liquid in the spray washing device can be reduced, the types of active substances in the spray liquid are increased, the spray effect of the spray liquid is strengthened, the deodorization efficiency is improved, and the energy consumption is saved.

Drawings

FIG. 1 is a schematic structural view of a deodorizing system of a garbage transfer station according to the present invention;

FIG. 2 is a schematic structural view of a spray washing device of the deodorization system of the garbage transfer station provided by the present invention;

fig. 3 is a schematic structural diagram of a packed tower of the deodorization system of the garbage transfer station provided by the present invention.

Detailed Description

The following description is only intended to disclose the invention so as to enable any person skilled in the art to practice the invention. The embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other arrangements without departing from the spirit and scope of the invention.

As shown in fig. 1, the utility model provides a garbage transfer station deodorization system, garbage transfer station deodorization system collects and handles the foul smell that garbage transfer station 300 produced, effectively reduces the loss of foul smell in the air to effectively reduce and be used for the deodorant ozone outer row, retrieve the waste water that the deodorization produced and not arrange outward, avoid water pollution. Specifically, the garbage transfer station deodorization system comprises a gas collecting hood 10, a spray washing device 20, a plasma reaction device 30, a packed tower 40 and a suction device 50.

The gas collecting hood 10 covers the top of the terminal 300 and collects the odor in the terminal 300.

The spray washing device 20 is used to primarily remove soluble pollutants and large particles in the odor generated from the waste transfer station 300. The spray washing device 20 and the gas collecting hood 10 are communicated through a pipeline. Specifically, the garbage transfer station deodorization system further includes a gas pipe 60, and the gas pipe 60 is used for connecting equipment and transporting odor. The spray washing device 20 is communicated with the gas collecting hood 10 through a gas pipeline 60, one end of the gas pipeline 60 is communicated with the top of the gas collecting hood 10, and the other end of the gas pipeline 60 is communicated with the bottom of the spray washing device 20. Thus, the odor diffused in the trash transfer station 300 is collected by the gas collecting casing 10 and delivered to the spray washing device 20 through the gas duct 60. When the spraying washing device 20 operates, spraying liquid is sprayed into the spraying washing device, and the spraying liquid has a cleaning and washing function. After the spraying liquid and the odor are fully contacted, soluble organic pollutants in the odor are dissolved in the spraying liquid, and large particles in the odor are removed by the spraying liquid.

Further, as shown in fig. 1 and 2, the spray washing device 20 has a spray head 21 and a filler layer 22 inside, and the filler layer 22 is used for removing large particles in the odor. The bottom of the spray washing device 20 is provided with an air inlet, and the bottom of the spray washing device 20 is provided with an air outlet. The odors enter from the bottom of the spray washer 20 and flow to the top of the spray washer 20. The spraying liquid is uniformly sprayed to the cavity inside the spraying washing device 20 through the spray head 21, and the odor and the spraying liquid are contacted and acted on and penetrate through the packing layer 22. The spray liquid can dissolve soluble organic pollutants in the odor passing through the interior of the spray washing device 20. As the odor gas passes through the packing layer 22 in the spray washing device 20, large particles in the odor gas are trapped by the packing layer 22.

Alternatively, the interior of the spray washing device 20 is alternately provided with a plurality of rows of spray heads 21 and a plurality of layers of packing layers 22 in a manner of a row of spray heads 21 and a layer of packing layer 22. For example, in the present embodiment, two rows of nozzles 21 and two layers of packing layers 22 are disposed inside the spray washing device 20, and one of the packing layers 22, one row of nozzles 21, the other packing layer 22 and the other row of nozzles 21 are sequentially disposed from the bottom to the top of the spray washing device 20, so that the two rows of nozzles 21 and the two layers of packing layers 22 are sequentially and alternately disposed in the manner of one row of nozzles 21 and one layer of packing layer 22. The spray heads 21 of each row are communicated through pipelines, a liquid inlet 23 is arranged on the outer wall of the spraying and washing device 20 at the position corresponding to each row of spray heads 21, and the liquid inlet 23 is communicated with the corresponding spray heads 21. In other embodiments, the number of rows of nozzles 21 and the number of layers of packing layers 22 may be other values, such as three rows of nozzles 21 and three layers of packing layers 22. The multi-row spray heads 21 and the multi-layer packing layer 22 are arranged, so that the content of particulate matters and the content of soluble organic pollutants in the odor can be effectively reduced.

Further, a demister 24 is provided at the top of the spray washing device 20, and the demister 24 can remove mist droplets in the odor.

The bottom of the spray washing device 20 is further provided with a first liquid storage bin 25, and the first liquid storage bin 25 is provided with a liquid inlet 251, a reflux port 252 and a liquid outlet 253. Wherein the liquid inlet 251 and the return port 252 are located on one side wall of the spray washing device 20, and the liquid outlet 253 is located on the opposite side wall of the spray washing device 20. The liquid inlet 251 and the liquid outlet 253 are provided with valves.

The deodorization system of the garbage transfer station further comprises a liquid storage tank 70, wherein the liquid storage tank 70 is positioned at one side of the spraying and washing device 20 and is used for storing spraying liquid. The liquid storage box 70 is communicated with a liquid inlet 251 of the first liquid storage bin 25 of the spraying and washing device 20. The spraying liquid in the liquid storage tank 70 can enter the spraying and washing device 20 through the liquid inlet 251 and is stored in the first liquid storage bin 25.

The garbage transfer station deodorization system further comprises a lift pump 80, and the lift pump 80 is positioned at one side of the spraying and washing device 20. The lift pump 80 is mainly used to lift the spray liquid to an effective height, thereby achieving spraying. The inlet of the lift pump 80 is communicated with the liquid outlet 253 of the first liquid storage bin 25 at the bottom of the spray washing device 20, and the outlet of the lift pump 80 is communicated with all the spray heads 21 of the spray washing device 20. Specifically, the outlet of the lift pump 80 is communicated with the liquid inlet 23 corresponding to the spray head 21 of each row through a pipeline, so that the spray liquid stored in the first liquid storage bin 25 at the bottom of the spray washing device 20 is conveyed to the top of the spray washing device 20 through the lift pump 80 and is sprayed out through the spray head 21, and the spray washing of the spray washing device 20 to the internal odor is realized. And the spraying liquid inside the spraying and washing device 20 and after the action of the odor is conveyed by the lift pump 80 and sprayed into the spraying and washing device 20 again, so that the cyclic utilization of the spraying liquid is realized.

The plasma reaction device 30 is communicated with the spray washing device 20 through a pipeline, the plasma reaction device 30 discharges to generate a large amount of active particles, and the active particles convert and remove part of toxic and harmful substances in the odor. Specifically, the air outlet at the top of the spray washing device 20 is communicated with the air inlet of the plasma reaction device 30, so that the odor filled after the washing treatment by the spray washing device 20 enters the plasma reaction device 30. In this embodiment, the plasma reaction device 30 is a low temperature plasma reaction device, the bottom of which is externally connected with a pulse power supply to ensure operation, and the middle of the plasma reaction device 30 is filled with a tubular electrode, wherein the discharge electrode and the grounding electrode can adopt the technology disclosed in chinese patent 201820584130.8. The tubular electrode discharges under the action of the pulse power supply and generates a large amount of active particles. High-energy electrons in the active particles can effectively break benzene rings, so that the discharge of carcinogens in odor is reduced; the oxidative free radicals such as hydroxyl and ozone in the active particles can oxidize odor pollutants such as hydrogen sulfide and ammonia gas and pollutants such as putrescine and cadaverine which are insoluble in water in the odor, so that the advanced purification of the odor is realized.

The packed tower 40 is communicated with the plasma reaction device 30 through a pipeline, and the packed tower 40 is mainly used for absorbing acid substances remained after the plasma reaction device 30 is treated and few parts of untreated toxic and harmful substances. As shown in fig. 1, the gas outlet of the plasma reaction device 30 is communicated with the gas inlet of the packed tower 40 through a gas pipe, and the odor treated by the plasma reaction device enters the packed tower 40. The packed tower 40 is a horizontal packed tower, and a plurality of packing layers 41 are arranged inside the packed tower 40, and optionally, in the embodiment, four packing layers 41 are arranged inside the packed tower 40; in other embodiments, the number of layers of the filler layer 41 may be other values, such as five layers. The filler layer 41 can sufficiently adsorb the nondegradable pollutants entrained in the odor and acidic substances and other small molecular substances generated in the discharge reaction process of the plasma reaction device 30.

Further, the packed tower 40 is provided with spray heads 42 at both side and top thereof. The number of the spray heads 42 is plural, and the plural spray heads 42 are arranged at intervals in the packed tower 40. The side wall of packed tower 40 has liquid inlet 401, and all spray heads 42 are communicated with liquid inlet 401. One side of the packed tower 40 is provided with a water collector 43 and a demister 44, and the water collector 43 and the demister 44 are arranged at the same side of the packed tower 40 at intervals. The odor enters the packed tower 40, passes through the water collector 43 and the demister 44 after being adsorbed and purified by the packing layer 41, so that the fog drops carried in the odor can be reduced.

The bottom of packed tower 40 is equipped with second stock solution storehouse 45, and second stock solution storehouse 45 is used for collecting and storing sprays liquid. The second liquid storage bin 45 of the packed tower 40 is communicated with the spray washing device 20. Specifically, the garbage transfer station deodorization system further comprises a liquid pipeline 90, and the liquid pipeline 90 is used for connecting equipment and conveying spraying liquid. The side surface of the second liquid storage bin 45 is provided with a water outlet and is externally connected with a liquid pipeline 90, namely, the second liquid storage bin 45 of the packed tower 40 is communicated with a reflux port 252 of the spraying and washing device 20 through the liquid pipeline 90, so that the spraying liquid in which the residual oxidizing substances (mainly ozone) in the plasma reaction device 30 are dissolved is effectively collected and refluxed into the spraying and washing device 20.

Further, the outlet of the lift pump 80 communicates with the packed tower 40, and the spray liquid inside the spray washing device 20 and after the odor is sent to the packed tower 40 by the lift pump 80 and sprayed inside the packed tower 40. Specifically, the lift pump 80 is communicated with the spray heads 42 at the top and the side of the packed tower 40 through a liquid inlet 401, so that the lift pump 80 can convey and spray the spray liquid in the liquid storage bin 24 into the packed tower 40.

In summary, the lift pump 80 is in communication with both the first reservoir 25 of the spray washer 20 and the spray head 42 of the packed tower 40. The liquid storage box 70 is stored with spraying liquid for spraying and washing odor, and the spraying liquid enters the first liquid storage bin 25 at the bottom of the spraying and washing device 20 through the liquid inlet 251 of the first liquid storage bin 25. Under the conveying action of the lift pump 80, the spray liquid stored in the first liquid storage bin 25 at the bottom of the spray washing device 20 flows out from the liquid outlet 253 and is conveyed by the lift pump 80 in two ways: one part of the odor is lifted to the top of the spraying and washing device 20 through the lifting pump 80 and sprayed into the spraying and washing device 20 through the spray head 21 for preliminary spraying and washing of the odor, and the sprayed spraying liquid is collected in the first liquid storage bin 25 at the bottom again; the other part is conveyed by the lift pump 80 and sprayed inside the packed tower 40 for spray washing the odor treated by the plasma reaction device 30 and absorbing the residual part of the oxidizing substances, such as ozone, coming out from the plasma reaction device 30, and the spray liquid sprayed inside the packed tower 40 is collected in the second liquid storage bin 45 at the bottom of the packed tower 40 and flows back to the first liquid storage bin 25 at the bottom of the spray washing device 20 through the liquid pipeline 90. Thus, the ozone-containing spraying liquid flowing back from the packed tower 40 flows back to the liquid storage bin 25, is mixed with the original spraying liquid, flows out through the liquid outlet 253 and then can be circularly conveyed again under the action of the lifting pump 80. The liquid storage bin 25 at the bottom of the spraying and washing device 20 and the liquid storage bin 45 at the bottom of the packed tower 40 are used as transfer devices in the circulating process of the spraying liquid, so that the circulating process of the spraying liquid can be effectively controlled.

It is worth mentioning that the use of the packed tower 40 increases the gas-liquid contact area and improves the absorption efficiency; the spraying liquid sprayed by the spraying washing device 20 is conveyed by the lift pump 80 and sprayed into the packed tower 40, so that the pollutants in the packed tower 40 can be cleaned, and the pores of the packing layer 41 are ensured.

The suction device 50 and the packed tower 40 are in communication by a pipe. The suction device 50 is mainly used for collecting purified gas and conveying the gas to an external discharge pipeline, so that low-noise emission is realized. In this embodiment, the suction device 50 is a fan, an air outlet of the suction device 50 is connected to the outer discharge pipe 400, and the purified gas is discharged through the outer discharge pipe 400. In other embodiments, other devices with the same function can be used as the suction device 50.

When the garbage transfer station deodorization system is in operation, odor in the garbage transfer station 300 is collected by the gas-collecting hood 10 and is delivered to the spray washing device 20. After the spraying liquid and the odor in the spraying and washing device 20 act and remove soluble pollutants and particulate matters in the odor, the odor enters the plasma reaction device 20. It can be understood that the top of the spray washing device 20 is provided with the demister 24, which can reduce the content of the droplets carried in the odor, prevent the excessive droplets carried in the odor from entering the plasma reaction device 30 and then affecting the discharge operation of the plasma reaction device 30, and reduce the corrosion to the equipment. The active particles generated by the plasma reaction device 30 convert and remove toxic and harmful substances in the odor. The odor treated by the plasma reaction device 30 enters the packed tower 40, and the packed tower 40 absorbs the acidic substances and the toxic and harmful substances remained after the odor is treated by the plasma reaction device. Finally, the suction device 50 collects and discharges the purified gas after being processed by the packed tower 40.

It should be noted that the water collector 43 and the demister 44 are disposed on the side of the packed tower 40, so that the droplets carried in the purified odor can be reduced, and the white smoke at the air outlet of the external discharge pipeline 400 can be finally reduced.

In another embodiment of the present invention, the odor of the garbage transfer station 300 enters the spray washing device 20 through the gas pipeline 60, and the spray liquid adopted by the spray washing device 20 is sodium carbonate solution. The sodium carbonate solution is a weak alkaline salt solution, has stable property, can stably exist in an ozone environment, and can absorb acid components in malodorous gas, such as oxynitride, oxysulfide, hydrosulfide and the like. And the sodium carbonate solution and the odor are utilized to carry out acid-base neutralization, so that the corrosion of the odor and the spraying liquid to the whole deodorization system equipment of the garbage transfer station is reduced.

By adopting the deodorization system of the garbage transfer station provided by the utility model, the rotten odor and toxic harmful substances emitted in the garbage compression process are quickly pumped to the spraying and washing device through the gas collecting hood, so that the dissipation of odor in the air is effectively reduced, and the harm to the health of working people of the garbage transfer station is reduced;

the utility model discloses a mode that plasma reaction unit 30 and traditional handicraft combined together utilizes a large amount of active particles that plasma discharge process produced for example high energy electron, strong oxidizing property free radical to change and get rid of the poisonous harmful substance of part in the foul smell, can effectively get rid of the difficult degradation pollutant in the foul smell, has improved foul gas's treatment effeciency, realizes deep purification. More importantly, part of the ozone generated in the discharging process of the plasma reaction device 30 is used for oxidizing the pollution components in the odor; and the other part of the treated odor is carried into the packed tower 40 and dissolved in the spraying liquid, and the spraying liquid in the packed tower 40 finally flows back into the spraying and washing device 20, so that the reutilization is realized, the water saving is realized, the discharge of the ozone can be reduced, and the influence of the discharge of the ozone on the environment is reduced.

The odor is captured by the spraying liquid containing ozone which flows back from the packed tower 40, so that preliminary deodorization is effectively realized, and meanwhile, part of water-soluble pollutants are oxidized and removed by ozone, on one hand, the content of harmful substances in the spraying liquid is reduced, on the other hand, the reaction of the water-soluble pollutants and residual oxidizing substances (such as ozone) in the odor at the inlet of the spraying washing device 20 can be enhanced by the water-soluble pollutants and the residual oxidizing substances (such as ozone) which flow back into the spraying liquid, and the ozone is further consumed, so that the emission of the residual ozone can be reduced.

The utility model discloses having established a liquid circulation system of compriseing washing unit 20 and packed tower 40 by spraying in equivalent to, owing to from packed tower 40 internal reflux contain strong oxidizing property free radical, ozone spray the liquid the remittance spray washing unit 20 in, can reduce and spray the liquid quantity in the washing unit 20, increased the kind of active material in the liquid that sprays, strengthened the spraying effect that sprays the liquid, improved deodorization efficiency, practiced thrift the energy consumption.

It is to be understood by persons skilled in the art that the embodiments of the present invention described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the invention have been shown and described in the embodiments without departing from the principles of the invention, embodiments of the invention may be subject to any deformation and modification.

Claims (9)

1. A garbage transfer station deodorization system is characterized by comprising:

the gas collecting hood covers the garbage transfer station and collects odor in the garbage transfer station;

the spraying and washing device is communicated with the gas-collecting hood through a pipeline;

the plasma reaction device is communicated with the spraying and washing device through a pipeline;

the packed tower is communicated with the plasma reaction device through a pipeline;

the suction device is communicated with the packed tower through a pipeline; the odor in the rubbish transfer station is collected and is carried extremely by the gas collecting channel spray the washing device, spray in the washing device spray liquid and odor effect and detach the soluble pollutant and the particulate matter in the odor after, the odor gets into plasma reaction unit, the active particle that plasma reaction unit produced carries out the conversion to the poisonous harmful substance in the odor and gets rid of, the packed tower absorbs in the odor residual acid material and poisonous harmful substance after plasma reaction unit handles, suction device collects and discharges the process the purified gas after the packed tower is handled.

2. The trash transfer station deodorizing system of claim 1 wherein said spray washing means is provided with a mist eliminator at the top thereof.

3. The garbage transfer station deodorization system according to claim 1, wherein the spray washing device has a spray head and a packing layer inside.

4. The garbage transfer station deodorization system according to claim 3, wherein a plurality of rows of the nozzles and a plurality of layers of the packing layers are alternately arranged inside the spray washing device in a manner of one row of the nozzles and one layer of the packing layer.

5. The waste transfer station deodorization system according to any one of claims 1 to 4, further comprising a lift pump, wherein the lift pump is communicated with the spray washing device and the packed tower, and the spray liquid inside the spray washing device and after the odor is acted is delivered to the packed tower through the lift pump and sprayed inside the packed tower.

6. The garbage transfer station deodorization system as claimed in claim 5, wherein the bottom of the spray washing device has a first liquid storage bin, the first liquid storage bin has a liquid outlet, the top and the side of the packed tower are provided with nozzles, and the lift pump is communicated with the liquid outlet of the first liquid storage bin and the nozzles of the packed tower.

7. The waste transfer station deodorization system according to claim 3 or 4, further comprising a lift pump, wherein an outlet of the lift pump is communicated with the spray head of the spray washing device, and the spray liquid inside the spray washing device and after being acted by the odor is delivered by the lift pump and sprayed again into the spray washing device.

8. The garbage transfer station deodorization system of claim 1, wherein a water collector and a demister are provided at one side of the packed tower.

9. The garbage transfer station deodorization system as set forth in claim 1, wherein a second storage tank is provided at the bottom of the packed tower, and the second storage tank is communicated with the spray washing device.

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