CN211814061U - Stomach-imitating biomass energy conversion device - Google Patents

Abstract

The utility model provides a stomach-imitating biomass energy conversion device, which comprises a transfer pipe, a delivery pump, a solar heating device, a feeding pipe, an air outlet pipe component, a slag liquid output pipeline and unit pipes, wherein the unit pipes are connected in sequence, and each unit pipe is provided with at least one feeding pipe, air outlet pipe component or slag liquid output pipeline; the feeding pipe is used for inputting the fermentation materials into the unit pipe; the conveying pump is used for conveying the fermentation materials from one unit pipe to the other unit pipe; the solar heating device is used for heating the fermentation material conveyed through the transit pipe, and the fermentation material is subjected to anaerobic fermentation in the unit pipe and generates methane; the air outlet pipe assembly is used for outputting biogas to the user side; the residue liquid output pipeline is used for discharging the fermented materials. The utility model provides a conversion equipment improves the living beings utilization efficiency, is favorable to planting and breeding the combination, reduces the quantity of the follow-up processing of mud, still becomes resources such as carbon nitrogen phosphorus into methane, dissolubility nitrogen phosphorus fertilizer, rather than the pollutant to can solve rural environmental pollution problem.

Description

Stomach-imitating biomass energy conversion device

Technical Field

The utility model relates to a biological agriculture technical field especially relates to an imitative stomach formula living beings energy conversion equipment.

Background

The rural economic development can not be at the cost of environmental sacrifice, particularly, the pollution to the surrounding environment by farmers is serious nowadays, excrement is discharged to rivers along with rainwater, the circumference of a farm is subjected to odorous fumigation for several kilometers, people can not live around the farm, the crop planting is difficult, the eutrophication of the rivers is serious, and the governments are provided with a plurality of related policies to strengthen the rural environmental management.

China uses 9% of cultivated land in the world and lives 22% of people. However, the problems of acidification, salinization and pollution of cultivated land in China are becoming serious. The green water Qingshan is extracted by the chair of the habit of the people, namely the Jinshan Yinshan is not consistent with the beautiful country construction under the big background of the new-period rural economic construction. At present, the degraded area of the cultivated land in China already accounts for more than 40 percent of the total cultivated land area. Soil fertility and soil utilization efficiency are two key factors for improving grain yield.

Compared with China in Europe and America, the land capacity is greatly reduced, the land capacity output contribution rate is 72% in Europe and America, but is only 52% in China, the cultivated land quality is poor, the land capacity contribution rate is inevitably reduced due to the fact that the cultivated land greatly depends on chemical fertilizers, and the China exchanges grains with high yield at the cost of large chemical fertilizer investment. Therefore, the fertility of farmland soil is improved, and grain storage in soil is an important basis and strategic choice for ensuring the grain safety and ecological environment safety of our country. At present, soil plough layers in China become thinner. The rapid development of the economic society, in the last 20 years, the soil thickness in the northeast and north China is reduced by 5 cm. In addition, the organic matter content of the soil is low as a whole, and the unbalance on the area is intensified. As the project of returning straws to the field is implemented in our country, the content of organic matters in soil is generally increased, but because the investment is insufficient, the nutrients are unbalanced and are reduced in the northeast and the southwest. Soil acidification is also very severe. 60% of the soil in our country is acid-base soil. Although the soil can be acidified under natural conditions, the soil acidification accelerated by human activities is more than 10 ten thousand times of that of the natural conditions. Many technologists find: and multiple experiments finally prove that the organic fertilizer can effectively prevent soil acidification.

Researches of related scientific workers prove that after the fertilizer is used, crops are poor in disease resistance and prone to various plant diseases, the fertilizer can damage mycelium of the plants, and the pesticide can further kill the plants. If the plant loses the network system, the plant can not resist the pest and disease damage when the pest and disease damage comes. These mycelia also help plants to absorb water and nutrients in the soil, particularly trace minerals, with an efficiency that can be increased hundreds of times. In some planting systems, the nutrient content of the organic fertilizer is not low in application amount, and the yield increasing effect of the organic fertilizer is not obvious as that of the fertilizer, and one main reason is that the nutrients of the organic fertilizer are slowly released and do not have the advantage of quick acting of the fertilizer. In 2011, numerous scientists in many countries completed the european nitrogen assessment report, which states that environmental nitrogen pollution is becoming one of the major environmental challenges in the 21 st century since the use of synthetic nitrogen fertilizers by humans. The annual loss of Europe due to nitrogen pollution reaches 700 hundred million to 3200 hundred million euros, which is equivalent to twice of annual agricultural income in Europe and high environmental cost. And the life of the user is also reduced. It thus teaches that: all chemical fertilizer-based agricultural industries, not only europe, including china, are at loss. Including 'twelve increases' in our agriculture, only the investment cost and the labor cost are calculated, but the cost of environmental pollution and health is not calculated.

Because the organic fertilizer slowly releases nutrients, the energy provided by the organic fertilizer is insufficient at the critical point of the plants needing the nutrients, and the fertilizer can efficiently and quickly supply the nutrients, thereby realizing high yield. To replace chemical fertilizers without reducing yield, another type of fertilizer, biological nitrogen fertilizer, is needed.

The biological nitrogen fixation research is to help plants to obtain more nitrogen from the air and to help plants to obtain more natural nitrogen, so that the agriculture and forestry production gradually gets rid of the dependence on chemical nitrogen sources.

The search for biological nitrogen source is a very young subject internationally, and the father of the United states green agriculture, Nuoman and Blogue, has also shown that the search for biological nitrogen source is to get rid of the dependence on chemical nitrogen source; slowing down and eliminating the energy, ecological, environmental and health risks of chemical nitrogen fertilizers; the ecological balance is restored, and the sustainable development of agriculture is realized. Experience in developed countries has shown that the quality benefits are kept up with reduced fertilizer usage.

The farmland quality in China is low, the high-efficiency utilization of fertilizers is limited to a great extent, and organic substitution is one of the main technologies for reducing and increasing the amount of fertilizers. The reasonable application of the fertilizer can not cause the deterioration of the cultivated land, the quality of the cultivated land is deteriorated at present because the fertilizer is not used in the reasonable application of the fertilizer in some places, and the soil is not deteriorated if the fertilizer is reasonably applied. Over 30 years of experiments have demonstrated that organic fertilizer can replace fertilizer by one hundred percent and maintain high yield when the organic matter content of soil reaches 30 g/kg. Therefore, the basic principle of replacing fertilizers with organic fertilizers is to replace the organic fertilizers according to the soil fertility, when the soil fertility is low, the organic fertilizers are replaced by less fertilizers, when the soil fertility is high, more organic fertilizers can be replaced, and the soil fertility improvement is the most effective measure for reducing weight and improving efficiency. Therefore, how to adopt biomass as organic ecological fertilizer to replace chemical fertilizer must adopt a scientific method, and can also solve the problem of rural environmental pollution, the technical key is to adopt an anaerobic fermentation technology to convert the biomass into partial energy which can be utilized and converted into rich water, while the sludge produced by the anaerobic technology is only 10 percent of aerobic activated sludge, which reduces the subsequent treatment amount of the sludge, and also converts resources such as carbon, nitrogen and phosphorus into methane, soluble nitrogen and phosphorus fertilizers instead of carbon dioxide, nitrogen or precipitates of chemical phosphorus removal.

Therefore, there is a need to provide a new gastrointestinal-like biomass energy conversion device to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an imitative stomach formula biomass energy conversion equipment to solve among the prior art technical problem that the biological waste material utilization ratio is not high and discharge and cause environmental pollution easily.

In order to solve the technical problem, the utility model provides an imitative intestines and stomach formula living beings energy conversion equipment includes transfer pipe, delivery pump, solar heating device, a plurality of pan feeding pipes, outlet pipe subassembly, sediment liquid output pipeline and unit pipe, a plurality of the unit pipe connects gradually, is equipped with one at least on each unit pipe pan feeding pipe or outlet pipe subassembly or sediment liquid output pipeline;

the transfer pipe is arranged on the solar heating device, one end of the transfer pipe is communicated with one unit pipe through the conveying pump, and the other end of the transfer pipe is communicated with the other unit pipe;

the feeding pipe is used for inputting fermentation materials into the unit pipe;

the conveying pump is used for conveying the fermentation materials from one unit pipe to the other unit pipe;

the solar heating device is used for heating the fermentation material conveyed through the transit pipe so as to realize that the fermentation material is subjected to anaerobic fermentation in the unit pipe at a preset fermentation temperature and generate methane;

the gas outlet pipe assembly is used for outputting the methane to a user side;

the residue liquid output pipeline is used for discharging the fermentation materials.

Preferably, two adjacent unit pipes are directly connected by a connecting flange; and a trap structure is arranged on the slag liquid output pipeline.

Preferably, the feeding pipe and the air outlet pipe assembly are both positioned above the unit pipes; the slag liquid output pipeline is positioned below the unit pipes.

Preferably, the input end of the feeding pipe is provided with a check valve.

Preferably, the output end of the air outlet pipe assembly is provided with an air delivery valve.

Preferably, the ends of the unit tubes are closed by a cap.

Preferably, imitative intestines and stomach formula energy conversion equipment still includes filter, fat pond, fertile water pump and fertile water pipe, the filter is used for with the discharge the fermented material filters into fertile water, the fat pond is used for receiving fertile water, fertile water pump is used for the extraction fertile water in the fat pond, and certainly fertile water pipe output.

Preferably, the gas outlet pipe assembly comprises a biogas pipe, a flange cover, an output pipe, a fixing member, a filtering device and a fixing base, the biogas pipe is connected with the unit pipes, the flange cover is connected with the biogas pipe and the output pipe, the fixing member is used for fixedly connecting the flange cover with the biogas pipe, and the fixing base is used for fixing the filtering device in the biogas pipe.

Preferably, the biogas pipe is perpendicular to the central axis of the unit pipe.

Preferably, the biogas pipe and the central axis of the unit pipe form a preset included angle.

In the intestine and stomach imitating biomass energy conversion device provided by the utility model, the feeding pipe is used for inputting fermentation materials into the unit pipe; the conveying pump is used for conveying the fermentation materials from one unit pipe to the other unit pipe; the solar heating device is used for heating the fermentation material conveyed through the transit pipe so as to realize that the fermentation material is subjected to anaerobic fermentation in the unit pipe at a preset fermentation temperature and generate methane; the gas outlet pipe assembly is used for outputting the methane to a user side; the residue liquid output pipeline is used for discharging the fermentation materials.

Wherein the fermentation material is a mixture of zymophyte and fermentation material, and the fermentation material can comprise one or more of sludge, excrement, organic sewage waste, human and animal excrement, kitchen waste water, rotten fruits and vegetables in life, hay leaves, straw stalks, food processing, brewing residue materials and other organic matters.

The utility model provides an imitative stomach formula living beings energy conversion device can the effective processing pollutant to convert the pollutant into the required marsh gas clean energy of life.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the gastrointestinal-simulated biomass energy conversion device provided by the present invention;

FIG. 2 is a schematic structural diagram of slag liquid treatment of one form of the simulated gastrointestinal biomass energy conversion device shown in FIG. 1;

FIG. 3 is a schematic structural diagram of another form of slag liquid treatment of the simulated gastrointestinal biomass energy conversion device shown in FIG. 1;

FIG. 4 is a first structural schematic diagram of a unit tube of the simulated gastrointestinal biomass energy conversion device shown in FIG. 1;

FIG. 5 is a second structural schematic diagram of a unit tube of the simulated gastrointestinal biomass energy conversion device shown in FIG. 1;

FIG. 6 is a third structural diagram of a unit tube of the simulated gastrointestinal biomass energy conversion device shown in FIG. 1;

FIG. 7 is a fourth structural diagram of a unit tube of the simulated gastrointestinal biomass energy conversion device shown in FIG. 1;

FIG. 8 is a schematic diagram of a first configuration of a gas outlet assembly of the simulated gastrointestinal biomass energy conversion device of FIG. 1;

fig. 9 is a second structural schematic diagram of the outlet pipe assembly of the simulated gastrointestinal biomass energy conversion device shown in fig. 1.

The reference numbers illustrate:

1/7/12-unit tube, 2-connection flange;

3-a feeding pipe, a check valve (not shown), a 4-gas transmission valve, a 5-gas outlet pipe component and an 11-slag liquid output pipeline;

6-sealing cover, 8-delivery pump, 9-solar heating device and 10-transit tube;

14-biogas residue, 15/19-filter, 16-fertilizer pool, 17-fertilizer pump and 18-fertilizer pipe;

5-1/5-9-biogas pipe, 5-2/5-6-flange cover, 5-3/5-7-output pipe, 5-4-fixing piece, 5-5/5-10-filtering device and 5-8-fixing base.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

The utility model provides a stomach-imitating biomass energy conversion device.

Referring to fig. 1-2, the intestine and stomach imitating biomass energy conversion device includes a transfer pipe 10, a transfer pump 8, a solar heating device 9, a plurality of feeding pipes 3, an air outlet pipe assembly 5, a slag liquid output pipeline 11 and unit pipes 1, wherein the unit pipes 1 are connected in sequence, and each unit pipe 1 is provided with at least one feeding pipe 3, or the air outlet pipe assembly 5, or the slag liquid output pipeline 11;

the transfer pipe 10 is arranged on the solar heating device 9, one end of the transfer pipe 10 is communicated with one unit pipe 7 through the delivery pump 8, and the other end of the transfer pipe is communicated with the other unit pipe 12;

the feeding pipe 3 is used for inputting fermentation materials into the unit pipe 1;

the conveying pump 8 is used for conveying the fermentation materials from one unit pipe 7 to the other unit pipe 12;

the solar heating device 9 is used for heating the fermentation material conveyed through the transit pipe 10 so as to realize that the fermentation material is subjected to anaerobic fermentation in the unit pipe 1 at a preset fermentation temperature and generate methane;

the gas outlet pipe assembly 5 is used for outputting the biogas to a user side;

the residue liquid output pipeline 11 is used for discharging the fermentation material.

In the intestine and stomach imitating biomass energy conversion device provided by the utility model, the feeding pipe 3 is used for inputting fermentation materials into the unit pipe 1; the delivery pump 8 is used for delivering the fermentation material from one unit pipe 1 (which is only provided with the feeding pipe 3 as shown in fig. 4) to the other unit pipe 1 (which is only provided with the air outlet branch pipe as shown in fig. 5); the solar heating device 9 is used for heating the fermentation material conveyed through the transit pipe 10 so as to realize that the fermentation material is subjected to anaerobic fermentation in the unit pipe 1 at a preset fermentation temperature and generate methane; the gas outlet pipe assembly 5 is used for outputting the biogas to a user side; the residue liquid output pipeline 11 is used for discharging the fermentation material.

Wherein the fermentation material is a mixture of zymophyte and fermentation material, and the fermentation material can comprise one or more of sludge, excrement, organic sewage waste, human and animal excrement, kitchen waste water, rotten fruits and vegetables in life, hay leaves, straw stalks, food processing, brewing residue materials and other organic matters.

The utility model provides an imitative stomach formula living beings energy conversion device can the effective processing pollutant to convert the pollutant into the required marsh gas clean energy of life.

In this embodiment, the solar heating device 9 is a trough-type solar heat collecting device. The solar heating device 9 heats the fermentation material to 30-50 ℃.

The unit pipes 1 are buried underground; the feeding pipes 3 can be mutually connected; the air outlet pipe assemblies 5 can be communicated with each other, and methane desulphurization equipment is uniformly adopted.

The feed pipe 3 can be connected to various sources of fermentation material (biomass feedstock).

Referring to fig. 4-7, in the present embodiment, only the feeding tube 3 may be disposed on the unit tube 1.

Only outlet pipe assembly 5 may be provided on unit pipe 1.

The unit pipe 1 can be provided with only a slag liquid output pipeline 11.

The unit pipe 1 can also be simultaneously provided with a feeding pipe 3 and an air outlet pipe component 5.

As a preferable mode of this embodiment, one end of the transit pipe 10 is communicated with one unit pipe 1 through the transfer pump 8, and the other end thereof is communicated with the other unit pipe 1. Only the air outlet pipe assembly 5 can be arranged on one unit pipe 1; the other unit pipe 1 is only provided with the feeding pipe component 3.

Referring to fig. 2 and 4, two adjacent unit pipes 1 are directly connected by a connection flange 2;

referring to fig. 2 again, a trap structure is disposed on the slag liquid output pipeline 11. The trap structure is used for blocking the escape of methane and preventing anaerobic bacteria from contacting air.

The feeding pipe 3 and the air outlet pipe assembly 5 are both positioned above the unit pipes 1; the slag liquid output pipeline 11 is positioned below the unit pipe 1.

In this embodiment, the input end of the feeding pipe 3 is provided with a check valve. The input end of the feeding pipe 3 is the end where the fermentation material firstly enters.

The ends of the unit tubes 1 are closed by a cap 6. The end of the unit tube 1 means an end of the unit tube 1 which is not connected to the adjacent unit tube 1.

Imitative intestines and stomach formula energy conversion equipment still includes filter 15, fat pond 16, rich water pump 17 and fertile water pipe, filter 15 is used for with the discharge the fermented material filters into rich water, fat pond 16 is used for receiving the rich water, rich water pump 17 is used for extracting the rich water in the fat pond 16, and certainly the rich water pipe is exported. So as to realize that the filtered fertilizer water is conveyed to each farmland with fertilizer requirements through a pump.

Referring to fig. 2 again, as a preferred mode of the present embodiment, the filter 15 is a cylindrical filter 15. The drum type filter 15 rotates counterclockwise to scrape the biogas residue 14 on the surface of the drum by the scraper, and the fertilizer water flows into the fertilizer water pool 16 and is delivered into the field of crops through the fertilizer water pipe connected with the fertilizer water pump 17 to fertilize the crops.

Referring to fig. 3, as another preferred mode of the present embodiment, the filter 15 may be one or more filter plates. The filter plate is of a multilayer structure, and the filtered liquid organic fertilizer is pumped into the field through a pump and is applied to crops through a dropper or a spray pipe.

Referring to fig. 5, an output end of the outlet pipe assembly 5 is provided with an air delivery valve 4. In this embodiment, the output end of the gas outlet pipe assembly 5 is the end of the biogas that finally flows out from the gas outlet pipe assembly 5.

The biogas digester is characterized in that the gas outlet pipe assembly 5 comprises a biogas digester 5-1, a flange cover 5-2, an output pipe 5-3, a fixing piece 5-4, a filtering device 5-5 and a fixing base 5-8, the biogas digester 5-1 is connected with the unit pipe 1, the flange cover 5-2 is connected with the biogas digester 5-1 and the output pipe 5-3, the fixing piece 5-4 is used for fixedly connecting the flange cover 5-2 with the biogas digester 5-1, and the fixing base 5-8 is used for fixing the filtering device 5-5 in the biogas digester 5-1.

Referring to fig. 8, the biogas pipe 5-1 is perpendicular to the central axis of the unit pipe 1.

Referring to fig. 9, the biogas pipe 5-1 forms a predetermined included angle with the central axis of the unit pipe 1. The filter 15 is of a Y-shaped structure and is specially used for filtering methane.

The utility model discloses an adopt an imitative stomach formula anaerobism pipe network to handle people and animals excrement and urine and other living beings and ferment under the oxygen deficiency condition, with the help of zymophyte its fermentation process with higher speed, realize high-efficiently producing marsh gas and produce organic liquid fertilizer.

Compared with the prior art, the utility model have following characteristics and advantage:

the solar energy is adopted to heat the fermented materials, so that the efficiency of producing the methane by the fermented materials is greatly improved;

the sealing and oxygen isolating mode adopts a trap, a sealing plate and a check valve;

the biogas collection device adopts an anti-blocking filter device 5-5, so that the biogas escape amount is larger and more thorough;

the traditional unsealed drainage open drain and the drain pipe are changed into corrosion-resistant glass fiber reinforced plastic materials, the glass fiber reinforced plastic materials are directly communicated with the drain pipes of various households, communities, hotels, food processing factories, breeding houses and the like, the glass fiber reinforced plastic materials are sealed at the first time, sewage is conveyed by adopting a gravity fall self-flowing low-pressure type pushing conveying method, and five functions of draining, generating gas, producing fertilizer, conveying gas and conveying fertilizer are simultaneously completed in the walking process of excrement and organic sewage garbage in the sealed anaerobic pipe.

The device is suitable for installation of various land types, and is suitable for installation and transformation of new and old cities, villages and large and small farms.

The whole system can be large or small, large to any big city, and small to one family.

It integrates the functions of pollution discharge, gas production, fertilizer production, gas transmission and fertilizer transmission into one body, and can reduce the whole investment cost.

Compared with the traditional biogas and sewage treatment plants, the biomass recycling system is much lower, can effectively realize the recycling of biomass, and solves the problem of pollution to rural environment.

Because the glass fiber reinforced plastic corrosion-resistant pipe which is mature at present is adopted, the weight is light, the installation is easy, the construction time is short, and the types of the sewage which can be treated are wide, for example, all organic matters such as human and animal excrement, kitchen waste water, rotten fruits and vegetables, hay leaves, straw stalks, food processing and brewing residue materials in life can be treated for fermentation;

the position of the biomass input pipe can be set according to a biomass production source, the corresponding output pipe 5-3 can be set according to a biogas user, and toilets and organic waste collection and treatment ports can be set at various places such as the field, scenic spots, roads and the like.

The organic ecological liquid fertilizer is delivered to the field and flowers and plants in a small area, so that the plants can purify the sewage without polluting the environment, and meanwhile, the biogas clean energy required by life can be obtained.

The above is only the preferred embodiment of the present invention, not limiting the scope of the present invention, all of which are under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (10)

1. A gastrointestinal simulation type biomass energy conversion device is characterized by comprising a transfer pipe, a delivery pump, a solar heating device, a plurality of feeding pipes, an air outlet pipe assembly, a slag liquid output pipeline and unit pipes, wherein the unit pipes are sequentially connected, and each unit pipe is at least provided with one feeding pipe or one air outlet pipe assembly or one slag liquid output pipeline;

the transfer pipe is arranged on the solar heating device, one end of the transfer pipe is communicated with one unit pipe through the conveying pump, and the other end of the transfer pipe is communicated with the other unit pipe;

the feeding pipe is used for inputting fermentation materials into the unit pipe;

the conveying pump is used for conveying the fermentation materials from one unit pipe to the other unit pipe;

the solar heating device is used for heating the fermentation material conveyed through the transit pipe so as to realize that the fermentation material is subjected to anaerobic fermentation in the unit pipe at a preset fermentation temperature and generate methane;

the gas outlet pipe assembly is used for outputting the methane to a user side;

the residue liquid output pipeline is used for discharging the fermentation materials.

2. The simulated gastrointestinal biomass energy conversion device according to claim 1, wherein two adjacent unit pipes are directly connected through a connecting flange; and a trap structure is arranged on the slag liquid output pipeline.

3. The simulated gastrointestinal biomass energy conversion device according to claim 1, wherein the feed pipe and the gas outlet pipe assembly are both positioned above the unit pipe; the slag liquid output pipeline is positioned below the unit pipes.

4. The simulated gastrointestinal biomass energy conversion device according to claim 1, wherein the input end of the feeding pipe is provided with a check valve.

5. The simulated gastrointestinal biomass energy conversion device according to claim 1, wherein an output end of the gas outlet pipe assembly is provided with a gas delivery valve.

6. The simulated gastrointestinal biomass energy conversion device according to claim 1, wherein the ends of the unit tubes are closed by a cap.

7. The gastrointestinal-like biomass energy conversion device according to claim 1, further comprising a filter, a fertilizer tank, a fertilizer water pump and a fertilizer water pipe, wherein the filter is used for filtering the discharged fermentation material into fertilizer water, the fertilizer tank is used for receiving the fertilizer water, and the fertilizer water pump is used for pumping the fertilizer water in the fertilizer water tank and outputting the fertilizer water from the fertilizer water pipe.

8. The simulated gastrointestinal biomass energy conversion device according to any one of claims 1 to 7, wherein the gas outlet pipe assembly comprises a biogas pipe, a flange cover, an output pipe, a fixing piece, a filtering device and a fixing base, the biogas pipe is connected with the unit pipe, the flange cover is connected with the biogas pipe and the output pipe, the fixing piece is used for fixedly connecting the flange cover with the biogas pipe, and the fixing base is used for fixing the filtering device in the biogas pipe.

9. The simulated gastrointestinal biomass energy conversion device according to claim 8, wherein the biogas pipe is perpendicular to the central axis of the unit pipe.

10. The simulated gastrointestinal biomass energy conversion device according to claim 8, wherein the biogas pipe and the central axis of the unit pipe form a preset included angle.

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