CN211246098U

CN211246098U - Container type deodorization system

Info

Publication number: CN211246098U
Application number: CN201922051064.5U
Authority: CN
Inventors: 张铭尹; 邱超; 邵华平
Original assignee: Jiangsu Tianchenjing Environmental Protection Technology Co ltd
Current assignee: Jiangsu Tianchenjing Environmental Protection Technology Co ltd
Priority date: 2019-11-25
Filing date: 2019-11-25
Publication date: 2020-08-14
Anticipated expiration: 2029-11-25

Abstract

The utility model discloses a container type deodorization system, wherein a biological deodorization module M is arranged in a first deodorization box, a humus deodorization module N is arranged in a second deodorization box, and the biological deodorization module M and the humus deodorization module N are communicated through a pipeline; a first air inlet is formed in the first deodorization box and communicated with the biological deodorization module M, a second air outlet is formed in the second deodorization box and communicated with the humus deodorization module N; the biological deodorization module M is internally provided with a biological deodorization device, a circulating water tank and an aeration device, and the biological deodorization device is respectively connected with the circulating water tank and the aeration device; and a humus deodorization device is arranged in the humus deodorization module N. The biological deodorization module and the humus deodorization module of the utility model adopt a container type design, thereby reducing the production difficulty, shortening the production period, and reducing the production cost and the installation difficulty; and because the floor space is small, the planning difficulty and the planning cost are reduced in urban application.

Description

Container type deodorization system

Technical Field

The utility model belongs to the technical field of the deodorization technique of foul smell among sewage treatment and specifically relates to a container formula deodorization system.

Background

Along with the continuous development of urban construction, the urban scale is continuously enlarged, the position of the sewage treatment plant is closer to the residential area, the odor emitted by the sewage treatment plant in the operation process seriously influences the normal life of surrounding residents, and the environmental pollution caused by the odor is more and more. Therefore, in the process of building a sewage treatment plant, besides necessary sewage and sludge treatment and disposal systems, an appropriate deodorization technology needs to be selected according to the components of odor substances and the strength of odor of the sewage treatment plant, and an economical and effective deodorization system needs to be arranged. The deodorization process adopted by the deodorization system is mainly divided into: absorption deodorization, adsorption deodorization, combustion deodorization, biological deodorization, neutralization or masking deodorization. With the continuous development and maturity of the biological deodorization technology and the lower operation cost of biological deodorization, the biological deodorization method is more and more widely applied to a sewage treatment deodorization system, odor is input into a biological deodorization device, and microorganisms in the biological deodorization device are utilized to decompose odor substances to obtain purified gas which is discharged into the atmospheric environment.

Chinese utility model patent CN209155526U discloses a biological deodorization equipment, including biological deodorization tower, the bio-packing layer, the nutrient solution, the medicament jar, the waste gas intake pipe, the waste liquid export, the net gas export, circulating water pump, shower pipe and shower nozzle, the nutrient solution sets up the bottom at biological deodorization tower, the bio-packing layer sets up in the top of nutrient solution, leave the gas distribution space between nutrient solution and the bio-packing layer, the shower nozzle is established in the top of bio-packing layer, the shower pipe passes through circulating water pump and the back flow is connected with the nutrient solution of biological deodorization tower's lower part, form circulation system, carry out reutilization to the microorganism. Although the biological deodorization equipment utilizes the circulating system to circularly utilize the microorganisms, in the continuous working process, the active nutrients in the microorganisms are gradually reduced, so that the active nutrients still need to be supplemented into the nutrient solution through the medicament tank at regular time, and the cost of raw materials is high. Moreover, the biological deodorization equipment is only provided with one biological deodorization tower, has limited biological deodorization effect, can only remove odor with medium and low concentration, and has not ideal deodorization effect on odor with high concentration.

In order to meet the increasingly strict emission standard of urban malodorous pollutants, a plurality of biological deodorization towers are connected in series at present, or the biological deodorization towers and other deodorization equipment are connected in series to deodorize high-concentration malodorous gas.

A plurality of deodorizing towers are sequentially arranged in an existing deodorizing system adopting a plurality of deodorizing devices, and after being input, odor is discharged to the atmospheric environment after being removed by the plurality of deodorizing towers in sequence. Each deodorization device of the multi-device deodorization system is a tower-type deodorization device, and is generally applied to deodorization of middle-concentration and high-concentration odor. The space size of each deodorization tower is usually larger, the production difficulty is larger, the production period is longer, and the production cost is high; and the integral height of the deodorization tower is higher, and the installation difficulty is higher. Each deodorization tower that sets up in series need occupy great installation space, and to the comparatively crowded living space in city, the deodorization system of installing this kind of multiple equipment has great planning degree of difficulty and planning cost.

SUMMERY OF THE UTILITY MODEL

The deodorization system of sewage treatment that this applicant is rational in infrastructure is provided to the deodorization equipment of above-mentioned current deodorization system's deodorization equipment that is tower deodorizing device, and space size is big, and the production degree of difficulty is great, cycle length, with high costs, and the installation degree of difficulty is big grade shortcoming, and deodorization equipment adopts container formula setting, and space size is little, and the production degree of difficulty is little, the cycle is short, with low costs, and the installation degree of difficulty is little.

The utility model discloses the technical scheme who adopts as follows:

a container type deodorization system is characterized in that a biological deodorization module M is arranged in a first deodorization box, a humus deodorization module N is arranged in a second deodorization box, and the biological deodorization module M and the humus deodorization module N are communicated through a pipeline; a first air inlet is formed in the first deodorization box and communicated with the biological deodorization module M, a second air outlet is formed in the second deodorization box and communicated with the humus deodorization module N;

the biological deodorization module M is internally provided with a biological deodorization device, a circulating water tank and an aeration device, and the biological deodorization device is respectively connected with the circulating water tank and the aeration device;

and a humus deodorization device is arranged in the humus deodorization module N.

As a further improvement of the above technical solution:

the first deodorization box and the second deodorization box are transversely arranged.

The first deodorization box and the second deodorization box are vertically arranged.

Still be provided with the fan in the humus deodorization module N, fan and humus deodorizing device, biological deodorizing device communicate respectively.

From supreme stock solution chamber, first gas distribution chamber, the biological packing layer of having arranged the intercommunication in proper order down in the biological deodorization device, the stock solution intracavity contains the nutrient solution of active microorganism, and the stock solution chamber is connected with spray set through circulating water pump, and spray set is located biological packing layer's top, and first gas distribution chamber intercommunication first air inlet, biological deodorization device's top sets up first exhaust port.

A humus filler is arranged in the humus deodorization device, a second air inlet is formed in the bottom of the humus deodorization device, and a second air outlet is formed in the top of the humus deodorization device; the first exhaust port of the biological deodorization device is communicated with the second air inlet of the humus deodorization device through a pipeline.

The utility model has the advantages as follows:

the biological deodorization module and the humus deodorization module of the utility model can still ensure thorough removal of the odorous waste gas after adopting the container type design; the biological deodorization module and the humus deodorization module adopt a container type design, so that the production difficulty is reduced, the production period is shortened, and the production cost and the installation difficulty are reduced; and because the floor space is small, the planning difficulty and the planning cost are reduced in urban application.

The utility model discloses a biological deodorization adds humus deodorization twice process and carries out the deodorization to the foul smell waste gas, gets rid of the foul smell more thoroughly, especially to the foul smell of high concentration, and it is good to get rid of the effect. And because the operation cost of biological deodorization is low, compared with other deodorization process combination modes, the biological deodorization and humus deodorization can achieve the best deodorization effect and simultaneously can keep the overall low operation cost. The deodorizing capacity of the humus filler is large, so that a good deodorizing effect can be achieved under the condition of a small filler volume, and when middle and high-concentration malodorous waste gas is deodorized, on one hand, the volume of the humus deodorizing device can be smaller and the humus deodorizing device has a better deodorizing effect compared with the existing tower-type deodorizing device; on the other hand, as the deodorizing capacity of the humus deodorizing device is large and the efficiency is higher, the requirement for odor output after the biological deodorizing device deodorizes is correspondingly reduced, and the volume of the biological deodorizing device can be smaller than that of the existing tower type deodorizing device.

The utility model discloses an aeration equipment inputs the air toward the nutrient solution in the stock solution chamber, under the air action, can be so that the activity of the active microorganism of nutrient solution can keep the longer time, still can keep the activity of active microorganism when the system shuts down simultaneously, can the quick start when guaranteeing the intermittent type operation of system for biological deodorization system operation is more stable. Municipal sewage is used as a supplement source of biological deodorization nutrient substances, so that the operation cost of a biological deodorization system is reduced, and the purpose of treating wastes with processes of wastes is achieved.

The utility model discloses a humus filler includes humic acid, and humic acid can take place chemical reaction with the foul smell composition in the foul smell waste gas, plays deodorant purpose. The humus filler is of a porous medium structure, and the porous structure enables the humus filler to have an adsorption effect, so that the humus filler can adsorb malodorous components in malodorous waste gas and has a deodorizing purpose; because the odorous waste gas generally contains moisture, after moisture is absorbed in the pore substances of the humus filler, microorganisms can grow on the wall surfaces of the pore substances in a humid environment, and the microorganisms can further carry out microbial decomposition on the odorous components in the odorous waste gas, so that the odorous components are removed more thoroughly; and humus filler has physical adsorption and microbiological reaction simultaneously because its porous medium makes it not influenced by the moisture in the foul smell waste gas, even under high humidity environment, although physical adsorption reduces slightly, the reaction of microorganism can strengthen, consequently still has fine deodorization effect, and it does not have the requirement to the moisture of the foul smell waste gas that gets into promptly, need not carry out extra dehumidification to the foul smell waste gas, has saved equipment cost, has also practiced thrift equipment fixing space. The humus filler is used for deodorizing the malodorous waste gas through three actions of chemical reaction, physical adsorption and microbial reaction, so that the deodorizing capacity is large, and the deodorizing is more thorough; moreover, the humus filler is a deodorant taking soil as a main component, and the pH value of the humus filler does not change rapidly, so that the humus filler has relatively small corrosion effect on equipment, the requirement on the corrosion resistance of the equipment is reduced, the operability difficulty of the equipment is further reduced, and the cost of the equipment is reduced.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a flow chart of the deodorization process of the present invention.

In the figure: 5. a first deodorization tank; 6. a biological deodorization device; 7. a second deodorizing tank; 8. a humus deodorizing device; 9. a spraying device; 10. a circulating water tank; 11. a water circulating pump; 12. an aeration device; 13. a fan; 14. a control cabinet; 15. a replenishing device; 16. a liquid storage cavity; 17. a hydrogen sulfide detector; 18. an ammonia gas detector; 19. a first air distribution cavity; 20. a biological filler layer; 21. a pipeline; 22. a nutrient solution; 23. a spray head; 24. a dissolved oxygen instrument; 25. a pH meter; 26. a turbidity meter; 27. a drainage device; 28. a second air distribution cavity; 29. humus filler; 30. a third air distribution cavity; 31. a first air inlet; 32. a first exhaust port; 33. a second air inlet; 34. a second exhaust port; m, a biological deodorization module; n, a humus deodorization module.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1, the utility model discloses a deodorization system sets up respectively in transversal arrangement's first deodorization case 5, second deodorization case 7 including the biological deodorization module M and the humus deodorization module N that the series connection set up to through pipeline 21 intercommunication, biological deodorization module M and humus deodorization module N all adopt the container formula to set up. As shown in fig. 2, the first air inlet 31, the biological deodorization device 6, the circulation water tank 10 and the aeration device 12 are provided in the first deodorization tank 5 from left to right, and the first air inlet 31, the circulation water tank 10 and the aeration device 12 are connected to the biological deodorization device 6. The fan 13, the humus deodorization device 8 and the second air outlet 34 are sequentially arranged in the second deodorization box 7 from right to left, and the fan 13 and the second air outlet 34 are connected to the humus deodorization device 8; a control cabinet 14 is further arranged in the second deodorization box 7 below the fan 13 and used for controlling the operation of the deodorization system. The bio-odour device 6 is connected to the fan 13 via a line 21. The foul waste gas is input into biological deodorization device 6 through first air inlet 31 and is carried out the biological deodorization after, enters into in the fan 13 pressure boost and carries out the humus deodorization in the humus deodorization device 8, and the net gas that obtains after the deodorization is discharged through second gas vent 34.

As shown in fig. 3, a liquid storage cavity 16, a first air distribution cavity 19 and a biological filler layer 20 which are communicated are sequentially arranged in the biological deodorization device 6 from bottom to top, a first air inlet 31 is positioned between the liquid storage cavity 16 and the biological filler layer 20 and is communicated with the first air distribution cavity 19, and a first air outlet 32 is arranged at the top of the biological deodorization device 6; a hydrogen sulfide detector 17 and an ammonia gas detector 18 are arranged on the first air inlet 31 and are used for detecting the content of hydrogen sulfide and ammonia gas in the input odorous waste gas; the interior of the liquid storage cavity 16 is provided with nutrient solution 22 containing active microorganisms, the liquid storage cavity 16 is respectively connected with the circulating water tank 10 and the circulating water pump 11, the circulating water pump 11 is connected with the spraying device 9 through a pipeline, the spraying device 9 is positioned above the biological packing layer 20, the spraying device 9 is provided with a plurality of spray heads 23, and the nutrient solution 22 in the liquid storage cavity 16 is sprayed into the biological deodorization device 6 from the plurality of spray heads 23 of the spraying device 9; the circulating water tank 10 is used for replenishing water in the liquid storage cavity 16. The liquid storage cavity 16 is also provided with a supply device 15, a dissolved oxygen meter 24, a PH meter 25, a turbidity meter 26 and a drainage device 27, the dissolved oxygen meter 24, the PH meter 25 and the turbidity meter 26 are used for monitoring the growth condition of microorganisms in the nutrient solution 22, and the supply device 15 is controlled to supply nutrient elements and dissolved oxygen into the liquid storage cavity 16 or the drainage device 27 is controlled to realize automatic drainage of the liquid storage cavity 16 according to monitored data, so that the active microorganisms in the liquid storage cavity 16 are ensured to be in the optimal state, and the high efficiency and the stability of the deodorization system are kept; the liquid storage cavity 16 is also connected with the aeration device 12, the aeration device 12 inputs air into the nutrient solution 22 of the liquid storage cavity 16, under the action of the air, the activity of active microorganisms of the nutrient solution 22 can be kept for a longer time, meanwhile, the activity of the active microorganisms can still be kept when the system is shut down, the system can be quickly started when the system is intermittently operated, and the operation of the biological deodorization system is more stable. The malodorous waste gas is input into the first gas distribution cavity 19 from the first gas inlet 31, uniformly distributed in the first gas distribution cavity 19 and then upwards flows through the biological packing layer 20 for preliminary biological deodorization, the malodorous waste gas flowing out of the biological packing layer 20 is contacted with the nutrient solution 22 sprayed by the spraying device 9, active microorganisms in the nutrient solution 22 further carry out biological deodorization on the malodorous waste gas, and the malodorous waste gas after biological deodorization is discharged through the first gas outlet 32; after deodorizing the malodorous waste gas, the nutrient solution 22 flows back to the liquid storage cavity 16 along the biological filler layer 20 and the first air distribution cavity 19 for cyclic utilization.

As shown in fig. 3, a second air distribution chamber 28 and a plurality of layers of humus fillers 29 are arranged in the humus deodorizing device 8, a third air distribution chamber 30 is arranged between two adjacent layers of humus fillers 29, the second air distribution chamber 28 is positioned at the bottom of the humus deodorizing device 8 and below the bottommost humus filler 29, a second air inlet 33 is communicated with the second air distribution chamber 28, the second air inlet 33 is communicated with the fan 13, and the fan 13 is communicated with a first exhaust port 32 of the biological deodorizing device 6 through a pipeline 21; the second air outlet 34 is provided at the top of the humus deodorizing means 8. The malodorous waste gas input into the humus deodorization device 8 can be more uniformly distributed and then upwards through the second gas distribution cavity 28, so that the uniformity of humus deodorization is improved; a third air distribution cavity 30 is arranged among the layers of humus fillers 29, so that the gas can be further uniformly distributed, and meanwhile, the flowing resistance of the gas can be reduced, and the gas can more smoothly pass through; the cavity outside the top humus filler 29 is communicated with the second exhaust port 34, the hydrogen sulfide detector 17 and the ammonia gas detector 18 are arranged on the second exhaust port 34, the purified gas after the humus deodorization is discharged through the second exhaust port 34, and the hydrogen sulfide detector 17 and the ammonia gas detector 18 are used for detecting the content of hydrogen sulfide and ammonia gas in the discharged gas. The foul smell waste gas discharged from the first exhaust port 32 of the biological deodorization device 6 is accelerated by the fan 13, then is input into the second air distribution chamber 28 from the second air inlet 33, and after being uniformly distributed in the second air distribution chamber 28, flows upwards through a plurality of layers of humus fillers 29 to perform humus deodorization to obtain purified gas, and the purified gas is discharged through the second exhaust port 34 at the top of the humus deodorization device 8.

The humic substance filler 29 contains soil as a main component, and contains inorganic components (silica, alumina, clay minerals, adventitious minerals, etc.) and organic components (mainly humic acid), and the humic acid of the organic components can chemically react with malodorous components in malodorous exhaust gas to achieve the purpose of deodorization. The humus filler 29 is of a porous medium structure, and the porous structure enables the humus filler to have an adsorption effect, so that malodorous components in malodorous waste gas can be adsorbed, and the aim of deodorization is fulfilled; because the odorous waste gas generally contains moisture, after moisture is absorbed in the pore substances of the humus filler 29, microorganisms can grow on the wall surfaces of the pore substances in a humid environment, and the microorganisms can further carry out microbial decomposition on the odorous components in the odorous waste gas, so that the odorous components are removed more thoroughly; moreover, the humus filler 29 is not affected by moisture in the odorous waste gas because the porous medium of the humus filler has physical adsorption and microbial reaction, and even in a high-humidity environment, although the physical adsorption is slightly reduced, the reaction of the microbes is enhanced, so that the humus filler still has a good deodorization effect, namely, the humus filler has no requirement on the moisture of the entering odorous waste gas, does not need to perform extra dehumidification treatment on the odorous waste gas, saves the equipment cost, and also saves the equipment installation space. The humus filler 29 deodorizes the malodorous waste gas through three actions of chemical reaction, physical adsorption and microbial reaction, so that the deodorization capacity is large and the deodorization is more thorough; moreover, the humus filler 29 is a deodorant with soil as a main component, and the pH value of the deodorant does not change rapidly, so that the corrosion effect on equipment is relatively small, the requirement on the corrosion resistance of the equipment is reduced, the difficulty in the operation of the equipment is further reduced, and the cost of the equipment is reduced.

Because the humic substance filler 29 has large deodorization capacity, the humic substance filler can achieve good deodorization effect under the condition of smaller filler volume, and when middle and high concentration malodorous waste gas is deodorized, on one hand, compared with the existing tower type deodorization device, the humic substance deodorization device 8 has smaller volume and better deodorization effect; on the other hand, since the humus deodorizing apparatus 8 has a large deodorizing capacity and a high efficiency, the requirement for the odor output after the deodorization by the biological deodorizing apparatus 6 is also reduced, and the biological deodorizing apparatus 6 can be made smaller in size than the conventional tower-type deodorizing apparatus. The biological deodorization module M and the humus deodorization module N of the utility model can still ensure thorough removal of the odorous waste gas after adopting the container type design; the biological deodorization module M and the humus deodorization module N adopt a container type design, so that the production difficulty is reduced, the production period is shortened, and the production cost and the installation difficulty are reduced; and because the floor space is small, the planning difficulty and the planning cost are reduced in urban application.

As shown in fig. 3, the method for deodorizing the foul smell exhaust gas by using the deodorizing system of the present invention is: the malodorous waste gas is subjected to biological deodorization through the biological deodorization module M and is discharged after being subjected to humus deodorization through the humus deodorization module N.

The specific deodorization process is as follows:

(1) the spraying device 9 of the biological deodorization device 6 sucks nutrient solution 22 from the liquid storage cavity 16 through the circulating water pump 11 and sprays the nutrient solution into the biological deodorization device 6 through the spray head 23.

(2) The malodorous waste gas is input into a first gas distribution cavity 19 of a biological deodorization device 6 of the biological deodorization module M from a first gas inlet 31, the malodorous waste gas flows upwards through a biological packing layer 20 after being uniformly distributed in the first gas distribution cavity 19, the biological packing layer 20 performs primary biological deodorization on the malodorous waste gas, the malodorous waste gas flowing out of the biological packing layer 20 is contacted with nutrient solution 22 sprayed by a spraying device 9, and active microorganisms in the nutrient solution 22 further perform biological deodorization on the malodorous waste gas; the malodorous exhaust gas after biological deodorization is discharged through the first exhaust port 32; after deodorizing the malodorous waste gas, the nutrient solution 22 flows into the liquid storage cavity 16 along the biological filler layer 20 and the first air distribution cavity 19 for cyclic utilization. After deodorizing the malodorous waste gas, the nutrient solution 22 flows back to the liquid storage cavity 16 along the biological filler layer 20 and the first air distribution cavity 19 for cyclic utilization.

(3) The foul smell waste gas after biological deodorization passes through pipeline 21 and gets into fan 13 of humus deodorization module N, after fan 13 pressure boost, in second air distribution chamber 28 of second air inlet 33 input humus deodorizing device 8, after evenly distributed in second air distribution chamber 28, upwards flow a plurality of layers of humus filler 29 and carry out the humus deodorization, each way of humus filler 29 is after thoroughly deodorizing the foul smell waste gas, the clean gas that obtains is discharged to the atmospheric environment through second gas vent 34 at humus deodorizing device 8 top.

The above description is illustrative of the present invention and is not intended to limit the present invention, and the present invention may be modified in any manner without departing from the spirit of the present invention. For example, the second air distribution chamber 28, the third air distribution chamber 30 and the plurality of layers of humus fillers 29 in the humus deodorizing device 8 may be vertically arranged in sequence or horizontally arranged, as long as the purpose of discharging purified gas after the gas is deodorized by humus is achieved. If the ground installation space is small, the first deodorization box 5 and the second deodorization box 7 can be vertically arranged and utilize the space in the vertical direction, so long as the purpose of deodorization can be achieved.

Claims

1. A container-based deodorising system, comprising: a biological deodorization module M is arranged in the first deodorization box (5), a humus deodorization module N is arranged in the second deodorization box (7), and the biological deodorization module M and the humus deodorization module N are communicated through a pipeline (21); a first air inlet (31) is formed in the first deodorization box (5), the first air inlet (31) is communicated with the biological deodorization module M, a second air outlet (34) is formed in the second deodorization box (7), and the second air outlet (34) is communicated with the humus deodorization module N;

the biological deodorization module M is internally provided with a biological deodorization device (6), a circulating water tank (10) and an aeration device (12), and the biological deodorization device (6) is respectively connected with the circulating water tank (10) and the aeration device (12);

and a humus deodorization device (8) is arranged in the humus deodorization module N.

2. A container-based deodorising system as claimed in claim 1, wherein: the first deodorization box (5) and the second deodorization box (7) are transversely arranged.

3. A container-based deodorising system as claimed in claim 1, wherein: the first deodorization box (5) and the second deodorization box (7) are vertically arranged.

4. A container-based deodorising system as claimed in claim 1, wherein: still be provided with fan (13) in the humus deodorization module N, fan (13) communicate respectively with humus deodorizing device (8), biological deodorizing device (6).

5. A container-based deodorising system as claimed in claim 1, wherein: the biological deodorization device is characterized in that a communicated liquid storage cavity (16), a first air distribution cavity (19) and a biological packing layer (20) are sequentially arranged in the biological deodorization device (6) from bottom to top, nutrient solution (22) of active microorganisms are contained in the liquid storage cavity (16), the liquid storage cavity (16) is connected with a spraying device (9) through a circulating water pump (11), the spraying device (9) is located above the biological packing layer (20), the first air distribution cavity (19) is communicated with a first air inlet (31), and a first exhaust port (32) is arranged at the top of the biological deodorization device (6).

6. A container-based deodorising system as claimed in claim 1, wherein: a humus filler (29) is arranged in the humus deodorization device (8), a second air inlet (33) is formed in the bottom of the humus deodorization device (8), and a second air outlet (34) is formed in the top of the humus deodorization device (8); the first exhaust port (32) of the biological deodorization device (6) is communicated with the second inlet port (33) of the humus deodorization device (8) through a pipeline (21).