CN209865760U - Black soldier fly of integral type breeds in-process tail gas processing apparatus - Google Patents

Abstract

The utility model discloses a black soldier fly of integral type breeds in-process tail gas processing apparatus belongs to environmental protection equipment technical field, including intake pipe and spray column, be provided with the orifice plate in the spray column, orifice plate upper portion is provided with filler assembly, the intake pipe passes and extends to the lower part of orifice plate, the intake pipe bottom of orifice plate lower part is provided with a plurality of apertures, filler assembly's top is provided with the water distribution shower nozzle through water supply mechanism intercommunication, the upper portion of water distribution shower nozzle is provided with the multilayer and passes through the atomizer that supplies liquid mechanism to communicate, the spray column top portion is provided with the blast pipe, be provided with the fan in the intake pipe, still be connected with the oxygen hose in the intake pipe, be provided with the valve on the oxygen hose. Can thoroughly remove ammonia gas, hydrogen sulfide, carbon dioxide and indole organic gases in tail gas, and has the advantages of compact structure, small occupied area, low energy consumption and environmental protection.

Description

Black soldier fly of integral type breeds in-process tail gas processing apparatus

Technical Field

The utility model relates to an environmental protection equipment technical field, specificly relate to a black soldier fly breeding in-process tail gas processing apparatus of integral type.

Background

Hermetia illucens (hermetiillucens L.) is a rotting, environmentally friendly insect and widely distributed throughout the world. The insect pest belongs to a complete metamorphosis development insect, and under the environmental condition of about 30 ℃, the whole life cycle is divided into four stages: egg phase is about 3 days, larva phase is 21 days, pupa phase is 10 days, and adult phase is 9 days. The hermetia illucens larvae can eat agricultural organic wastes such as livestock and poultry excrement, kitchen waste, animal carcasses and the like, and meanwhile, high-value insect protein feed is produced, and the hermetia illucens larvae are easy to feed and manage, low in cost and wide in application value at present. In the process of using the hermetia illucens larvae to treat the agricultural organic waste, the body weight of the hermetia illucens larvae grows exponentially from 3-5-th-.

The hermetia illucens can generate ammonia gas, hydrogen sulfide, carbon dioxide, indole and other organic tail gases in the process of treating agricultural organic wastes such as livestock excrement, kitchen waste, animal carcasses and the like. The tail gas is directly discharged to pollute the environment, particularly the indole organic waste gas is not easy to decompose, and if a human body contacts or inhales the tail gas for a long time, serious harm is brought to the nervous system and the hematopoietic function, and even other serious diseases are caused.

The existing black soldier fly tail gas treatment device generally uses acid liquor to absorb ammonia gas in tail gas, then uses alkali liquor to absorb hydrogen sulfide and carbon dioxide in the tail gas, and finally uses a spray tower to remove indole organic gas in the tail gas. The tail gas treatment device in the existing black soldier fly breeding process has the defects that the acid liquor pool, the alkali liquor pool and the spray tower are arranged in a straight line, the middle of the acid liquor pool, the alkali liquor pool and the spray tower are connected with the fan through pipelines, the occupied area of equipment is large, the energy consumption is high, and the black soldier fly breeding process is not environment-friendly.

SUMMERY OF THE UTILITY MODEL

When handling tail gas among the process of breeding to above-mentioned heisui river horsefly, sour liquid pond, alkali lye pond and spray column are arranged in a single line, and the centre is connected through pipeline and fan, and equipment area is big, and the power consumption is high, the defect of not environmental protection, the utility model aims to provide a heisui river horsefly of integral type breeds in-process tail gas processing apparatus.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme: the utility model provides an in-process tail gas processing apparatus is bred to heisui river horsefly of integral type, includes intake pipe and spray column, be provided with the orifice plate in the spray column, orifice plate upper portion is provided with filler assembly, the intake pipe passes and extends to the lower part of orifice plate, the intake pipe bottom of orifice plate lower part is provided with a plurality of apertures, filler assembly's top is provided with the water distribution shower nozzle through the water supply mechanism intercommunication, the upper portion of water distribution shower nozzle is provided with the multilayer and passes through the atomizer that supplies the liquid mechanism intercommunication, the spray column top is provided with the blast pipe, be provided with the fan in the intake pipe, still be connected with the oxygen hose in the intake pipe, be provided with.

The working principle is as follows: under the action of a fan, tail gas in the black soldier fly breeding process enters a spray tower from a small hole in an air inlet pipe, a valve on an oxygen pipe is opened, the oxygen is communicated with the tail gas and enters the spray tower, meanwhile, a water supply mechanism and a liquid supply mechanism respectively supply water to a water distribution nozzle, the liquid supply mechanism supplies liquid to an atomizing nozzle, the tail gas rises in the spray tower and forms countercurrent with water to remove ammonia in the tail gas, the gas after the ammonia is removed continues to rise, Acinetobacter suberectus endotheliatus (Acinetobacter), Pseudomonas aeruginosa (Pseudomonas aeruginosa) and mixed bacteria liquid of aerobic Thiobacillus thioparus are formed, the tail gas after the ammonia is removed forms countercurrent with the mixed bacteria liquid, the Acinetobacter suberectus and the Pseudomonas aeruginosa can solubilize and degrade indole organic gases, the aerobic Thiobacillus thioparus is Thiobacillus thioparus or Thiobacillus thioparus, hydrogen sulfide is used as nutrition, carbon dioxide is used as a carbon source, and hydrogen sulfide is used as hydrogen peroxide sulfate under the condition that oxygen is supplied, meanwhile, hydrogen sulfide and carbon dioxide in tail gas are removed, in addition, acinetobacter cutaneus, pseudomonas aeruginosa, thiobacillus thiofidus or thiobacillus thioparus in the mixed bacteria liquid are hung on the packing component, and when the gas moves from bottom to top, the contact area of the gas and microorganisms is increased, so that the removal effect of indole organic gas, hydrogen sulfide and carbon dioxide is better. Through the setting of follow supreme filler component, water distribution shower nozzle, multilayer atomizer in the spray column down, ammonia, hydrogen sulfide, carbon dioxide and the indole class organic gas in the tail gas can thoroughly be detached, compact structure, and area is little, and the power consumption is low, and the environmental protection has solved above-mentioned black soldier fly and has bred in-process tail gas treatment, and sour liquid pond, alkali lye pond and spray column are arranged in a word, and the centre is connected through pipeline and fan, and equipment area is big, and the power consumption is high, the defect of not environmental protection.

Furthermore, the water supply mechanism comprises a water tank positioned on one side of the spray tower, the water tank is communicated with the water distribution spray head through a water supply pipe, and a water pump is arranged on the water supply pipe. And (3) opening the water pump, enabling water in the water tank to enter the water distribution nozzle through the water supply pipe and flow down from the water distribution nozzle to form counter flow with tail gas rising in the spray tower, and removing ammonia in the tail gas.

Furthermore, the liquid supply mechanism comprises a liquid box on the other side of the spray tower, the liquid box is communicated with each atomizing nozzle through a liquid supply pipe, and a liquid pump is arranged on the liquid supply pipe. And opening a liquid pump, enabling liquid containing microorganisms in a liquid tank to enter an atomizing nozzle through a liquid supply pipe and be sprayed down from the atomizing nozzle, atomizing the liquid containing the microorganisms and then spraying down, enabling thiobacillus thioparus or thiobacillus thioparus to act with hydrogen sulfide, oxygen and carbon dioxide in tail gas to remove the hydrogen sulfide and the carbon dioxide in the tail gas, enabling acinetobacter cutaneus and pseudomonas aeruginosa to solubilize and degrade indole organic gases, and completely removing the hydrogen sulfide, the carbon dioxide and the indole organic tail gas in the tail gas.

Further, the filler component comprises a plurality of composite microbial inoculum particles and a plurality of cotton balls which are uniformly distributed. The arrangement of a plurality of composite microbial inoculum particles and a plurality of cotton balls has good gas distribution effect, increases the contact area of gas and spray liquid, and in addition, the plurality of cotton balls can also be adhered with the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thiofidus in the mixed bacterial liquid, increases the contact of the gas with the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thiofidus, ensures that the removing effect of indole organic gas, hydrogen sulfide and carbon dioxide is good, and the plurality of composite microbial inoculum particles are immobilized cell pellets containing the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thiofidus, and aims to more efficiently remove the indole organic gas, the hydrogen sulfide and the carbon dioxide in waste gas.

Furthermore, a gas distribution mechanism is arranged between the water distribution nozzle and the bottommost layer of the atomization nozzle, the gas distribution mechanism comprises a supporting plate parallel to the pore plate, a plurality of first through holes are formed in the supporting plate, a gas distribution block is arranged on the upper portion of the supporting plate, and a plurality of second through holes communicated with the first through holes are formed in the gas distribution block. Tail gas gets into the second through-hole that gets into on the gas distribution piece and flows from the first through-hole in the backup pad earlier, makes the tail gas in the spray column scatter as far as, and the setting of second through-hole on backup pad, first through-hole and gas distribution piece and the gas distribution piece makes tail gas ability fully dispersed come, and the gas distribution is effectual.

Furthermore, a recycling box is arranged below the spray tower, the spray tower is communicated with the recycling box through a connecting pipe, and a supporting column is further arranged between the spray tower and the recycling box. The waste gas after the reaction enters the recovery box from the connecting pipe to be recovered, and the support column plays a supporting role in the spray tower.

Furthermore, a swirl plate demister is arranged above the atomizing nozzle at the topmost layer in the spray tower. The gas is arranged from the blast pipe calandria after the whirl board defroster defogging, and safety ring protects, can not polluted air and harm health.

The utility model has the advantages as follows: (1) through the arrangement of the packing assembly, the water distribution spray head and the multilayer atomization spray head from bottom to top in the spray tower, ammonia gas, hydrogen sulfide, carbon dioxide and indole organic gas in tail gas can be thoroughly removed, and the spray tower has the advantages of compact structure, small occupied area, low energy consumption and environmental protection; (2) the arrangement of a plurality of composite microbial inoculum particles and a plurality of cotton balls has good gas distribution effect, increases the contact area of gas and spray liquid, and can also adhere to the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thioparus in the mixed bacterial liquid, increases the contact of the gas with the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thiofidus, and ensures that the removal effect of indole organic gas, hydrogen sulfide and carbon dioxide is good; (3) the plurality of composite microbial inoculum particles are immobilized cell pellets containing acinetobacter cutaneus, pseudomonas aeruginosa and thiobacillus thioparus or thiobacillus thioparus, and aim to remove indole organic gases, hydrogen sulfide and carbon dioxide in waste gas more efficiently; (4) tail gas enters the second through holes in the gas distribution block from the first through holes in the supporting plate and flows out, so that the tail gas in the spray tower is dispersed as much as possible, and the arrangement of the supporting plate, the first through holes, the gas distribution block and the second through holes in the gas distribution block ensures that the tail gas can be fully dispersed, so that the gas distribution effect is good; (5) the waste gas after the reaction enters the recovery box from the connecting pipe to be recovered, and the support column plays a supporting role in the spray tower.

Drawings

Fig. 1 is a structural diagram of an integrated tailgas treatment device for a black soldier fly breeding process according to the application.

Reference numerals: 1-air inlet pipe, 2-spray tower, 3-fan, 4-small hole, 5-hole plate, 6-packing component, 7-water tank, 8-water supply pipe, 9-water pump, 10-water distribution nozzle, 11-liquid tank, 12-liquid supply pipe, 13-liquid pump, 14-atomization nozzle, 15-demister, 16-exhaust pipe, 17-support plate, 18-first through hole, 19-air distribution block, 20-second through hole, 21-recovery tank, 22-connecting pipe, 23-support column, 24-oxygen pipe and 25-valve.

Detailed Description

For a better understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and the following embodiments.

Example 1

As shown in fig. 1, a tail gas processing apparatus among black soldier fly process of breeding of integral type, including intake pipe and spray column, be provided with the orifice plate in the spray column, orifice plate upper portion is provided with filler assembly, the intake pipe passes and extends to the lower part of orifice plate, the intake pipe bottom of orifice plate lower part is provided with a plurality of apertures, filler assembly's top is provided with the water distribution shower nozzle through the water supply mechanism intercommunication, the upper portion of water distribution shower nozzle is provided with the multilayer and passes through the atomizer that supplies the liquid mechanism intercommunication, the spray column top is provided with the blast pipe, be provided with the fan in the intake pipe, still be connected with the oxygen hose in the intake pipe, be provided with the valve on the oxygen hose.

The working principle is as follows: under the action of a fan, tail gas in the black soldier fly breeding process enters a spray tower from a small hole in an air inlet pipe, a valve on an oxygen pipe is opened, the oxygen is communicated with the tail gas and enters the spray tower, meanwhile, a water supply mechanism and a liquid supply mechanism respectively supply water to a water distribution nozzle, the liquid supply mechanism supplies liquid to an atomizing nozzle, the tail gas rises in the spray tower and forms countercurrent with water to remove ammonia in the tail gas, the gas after the ammonia is removed continues to rise, Acinetobacter suberectus endotheliatus (Acinetobacter), Pseudomonas aeruginosa (Pseudomonas aeruginosa) and mixed bacteria liquid of aerobic Thiobacillus thioparus are formed, the tail gas after the ammonia is removed forms countercurrent with the mixed bacteria liquid, the Acinetobacter suberectus and the Pseudomonas aeruginosa can solubilize and degrade indole organic gases, the aerobic Thiobacillus thioparus is Thiobacillus thioparus or Thiobacillus thioparus, hydrogen sulfide is used as nutrition, carbon dioxide is used as a carbon source, and hydrogen sulfide is used as hydrogen peroxide sulfate under the condition that oxygen is supplied, meanwhile, hydrogen sulfide and carbon dioxide in tail gas are removed, in addition, acinetobacter cutaneus, pseudomonas aeruginosa, thiobacillus thiofidus or thiobacillus thioparus in the mixed bacteria liquid are hung on the packing component, and when the gas moves from bottom to top, the contact area of the gas and microorganisms is increased, so that the removal effect of indole organic gas, hydrogen sulfide and carbon dioxide is better. Through the setting of follow supreme filler component, water distribution shower nozzle, multilayer atomizer in the spray column down, ammonia, hydrogen sulfide, carbon dioxide and the indole class organic gas in the tail gas can thoroughly be detached, compact structure, and area is little, and the power consumption is low, and the environmental protection has solved above-mentioned black soldier fly and has bred in-process tail gas treatment, and sour liquid pond, alkali lye pond and spray column are arranged in a word, and the centre is connected through pipeline and fan, and equipment area is big, and the power consumption is high, the defect of not environmental protection.

Example 2

Based on embodiment 1, as shown in fig. 1, the water supply mechanism includes a water tank located at one side of the spray tower, the water tank is communicated with the water distribution nozzle through a water supply pipe, and a water pump is arranged on the water supply pipe.

And (3) opening the water pump, enabling water in the water tank to enter the water distribution nozzle through the water supply pipe and flow down from the water distribution nozzle to form counter flow with tail gas rising in the spray tower, and removing ammonia in the tail gas.

Example 3

Based on embodiment 1, as shown in fig. 1, the liquid supply mechanism includes a liquid tank on the other side of the spray tower, the liquid tank is communicated with each of the atomizing nozzles through a liquid supply pipe, and a liquid pump is disposed on the liquid supply pipe.

And opening a liquid pump, enabling liquid containing microorganisms in a liquid tank to enter an atomizing nozzle through a liquid supply pipe and be sprayed down from the atomizing nozzle, atomizing the liquid containing the microorganisms and then spraying down, enabling thiobacillus thioparus or thiobacillus thioparus to act with hydrogen sulfide, oxygen and carbon dioxide in tail gas to remove the hydrogen sulfide and the carbon dioxide in the tail gas, enabling acinetobacter cutaneus and pseudomonas aeruginosa to solubilize and degrade indole organic gases, and completely removing the hydrogen sulfide, the carbon dioxide and the indole organic tail gas in the tail gas.

Example 4

Based on example 1, as shown in fig. 1, the packing component comprises a plurality of composite microbial inoculum particles and a plurality of cotton balls which are uniformly distributed.

The arrangement of a plurality of composite microbial inoculum particles and a plurality of cotton balls has good gas distribution effect, increases the contact area of gas and spray liquid, and in addition, the plurality of cotton balls can also be adhered with the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thiofidus in the mixed bacterial liquid, increases the contact of the gas with the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thiofidus, ensures that the removing effect of indole organic gas, hydrogen sulfide and carbon dioxide is good, and the plurality of composite microbial inoculum particles are immobilized cell pellets containing the acinetobacter cutaneus, the pseudomonas aeruginosa, the thiobacillus thiofidus or the thiobacillus thiofidus, and aims to more efficiently remove the indole organic gas, the hydrogen sulfide and the carbon dioxide in waste gas.

Example 5

Based on embodiment 1, as shown in fig. 1, an air distribution mechanism is arranged between the water distribution nozzle and the bottom layer of the atomization nozzle, the air distribution mechanism comprises a support plate parallel to the pore plate, a plurality of first through holes are arranged on the support plate, an air distribution block is arranged on the upper portion of the support plate, and a plurality of second through holes communicated with the first through holes are arranged on the air distribution block.

Tail gas gets into the second through-hole that gets into on the gas distribution piece and flows from the first through-hole in the backup pad earlier, makes the tail gas in the spray column scatter as far as, and the setting of second through-hole on backup pad, first through-hole and gas distribution piece and the gas distribution piece makes tail gas ability fully dispersed come, and the gas distribution is effectual.

Example 6

Based on embodiment 1, as shown in fig. 1, a recycling bin is arranged below the spray tower, the spray tower is communicated with the recycling bin through a connecting pipe, and a supporting column is further arranged between the spray tower and the recycling bin.

The waste gas after the reaction enters the recovery box from the connecting pipe to be recovered, and the support column plays a supporting role in the spray tower.

Example 7

Based on embodiment 1, as shown in fig. 1, a swirl plate demister is arranged above the top-most layer of the atomizing nozzle in the spray tower.

The gas is arranged from the blast pipe calandria after the whirl board defroster defogging, and safety ring protects, can not polluted air and harm health.

Those skilled in the art should understand that the motor water pump 9 and the liquid pump 13 of the present invention belong to the prior art, and different models and specifications of products can be purchased in the market according to specific requirements, for example, the model of the water pump is WNY600, and the model of the liquid pump is G35-1.

The foregoing is a primary feature of the present solution and its advantages, and it should be understood by those skilled in the art that the present solution is not limited by the foregoing embodiments, and that the foregoing embodiments and descriptions are only illustrative of the principles of the present solution, and that various changes and modifications may be made therein without departing from the spirit and scope of the present solution, which fall within the scope of the invention as claimed, and the scope of the present solution is defined by the appended claims and their equivalents.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a releasable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through an intermediary profile, or both. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Claims (7)

1. The integrated tail gas treatment device for the black soldier fly breeding process is characterized by comprising an air inlet pipe (1) and a spray tower (2), wherein a pore plate (5) is arranged in the spray tower (2), a filler component (6) is arranged on the upper portion of the pore plate (5), the air inlet pipe (1) penetrates through and extends to the lower portion of the pore plate (5), a plurality of small holes (4) are formed in the bottom of the air inlet pipe (1) on the lower portion of the pore plate (5), a water distribution nozzle (10) communicated through a water supply mechanism is arranged above the filler component (6), a plurality of atomization nozzles (14) communicated through the liquid supply mechanism are arranged on the upper portion of the water distribution nozzle (10), an exhaust pipe (16) is arranged at the top of the spray tower (2), a fan (3) is arranged on the air inlet pipe (1), and an oxygen pipe (24) is further connected to the, and a valve (25) is arranged on the oxygen pipe (24).

2. The integrated black soldier fly breeding process tail gas treatment device according to claim 1, wherein the water supply mechanism comprises a water tank (7) positioned on one side of the spray tower (2), the water tank (7) is communicated with the water distribution nozzle (10) through a water supply pipe (8), and a water pump (9) is arranged on the water supply pipe (8).

3. The integrated black soldier fly cultivation tail gas treatment device according to claim 1, wherein the liquid supply mechanism comprises a liquid tank (11) on the other side of the spray tower (2), the liquid tank (11) is communicated with each atomizer (14) through a liquid supply pipe (12), and a liquid pump (13) is arranged on the liquid supply pipe (12).

4. The integrated black soldier fly breeding process tail gas treatment device as claimed in claim 1, wherein the filler assembly (6) comprises a plurality of composite microbial inoculum particles and a plurality of cotton balls which are uniformly distributed.

5. The tail gas treatment device for the black soldier fly breeding process of integral type of claim 1, wherein, be provided with the gas distribution mechanism between water distribution shower nozzle (10) and bottommost atomizer (14), the gas distribution mechanism includes being on a parallel with backup pad (17) of orifice plate (5), be provided with a plurality of first through-holes (18) on backup pad (17), the upper portion of backup pad (17) is provided with gas distribution piece (19), be provided with a plurality of second through-holes (20) with first through-hole (18) intercommunication on gas distribution piece (19).

6. The integrated black soldier fly cultivation process tail gas treatment device according to claim 1, wherein a recovery tank (21) is arranged below the spray tower (2), the spray tower (2) is communicated with the recovery tank (21) through a connecting pipe (22), and a support column (23) is further arranged between the spray tower (2) and the recovery tank (21).

7. The integrated black soldier fly cultivation tail gas treatment device according to claim 1, wherein a swirl plate demister (15) is arranged above the top-most atomizing nozzle (14) in the spray tower (2).