KR102246376B1 - Convergence production system of underground pig house and ground greenhouse for livelihood swine farm - Google Patents

Abstract

The present invention relates to a convergence production system of a subsistence-type underground pig house and an above-ground greenhouse. More specifically, the present invention relates to a subsistence-type underground pig house and above-ground greenhouse convergence production system, wherein air containing odor components generated in an underground pig house is supplied to an above-ground greenhouse. Air introduced into the above-ground greenhouse is deodorized, and is beneficial to crop growth. In addition, a trench filter part purifies air including the odor components of the underground pig house, and the air is discharged to an outer space so that odors are reduced. Also, environmentally-friendly properties are ensured. To this end, the convergence production system comprises: a pig house (10) buried underground; and an above-ground greenhouse (20) including a plurality of planting parts (21) which are installed at the upper side of the pig house (10) and in which crops are planted, and a passage part (22) which is formed between a pair of planting parts (21). Each of the planting parts (21) includes a vegetation filter part (210) that is installed underground and supplies the filtered air from the odor components generated in the pig house (10) to the above-ground greenhouse (20). The passage part (22) includes a trench filter part (220) installed in the underground lengthwise direction to absorb odor components contained in air introduced from the pig house (10) and discharge purified air to an outer space of the above-ground greenhouse (20).

Description

CONVERGENCE PRODUCTION SYSTEM OF UNDERGROUND PIG HOUSE AND GROUND GREENHOUSE FOR LIVELIHOOD SWINE FARM}

The present invention relates to a fusion production system of a livelihood type underground pig farm and a ground greenhouse, and more specifically, air containing odor components generated from the underground pig farm is supplied to the ground greenhouse, but odor components are adsorbed to reduce and help crop growth. In addition, the air containing the odor components of the underground pig farm is purified through the trench filter unit installed in the ground and is discharged to the outside space on the ground. Therefore, it is used in the integrated production system of the underground pig house-ground greenhouse that can reduce the odor around the pig house. About.

Recently, livestock farming has been activated due to the large-scale and complexization of livestock farms, but not only the environment of livestock is serious due to the dense rearing of many livestock inside the standardized livestock sheds, and the occurrence of wastewater such as manure and odors are increasing during the livestock production process.

In particular, the number of livelihood pig farming households in Korea is less than 2,000 pig farms at all times, which is basically a couple-type pig farming household, accounting for about 1,600 households, which accounts for 26% of the total pig farming households.

According to the National Rights Commission of Korea (October 2018)'Report on the Results of the National Livestock Odor Planning Survey', among livestock breeding,'pig farming' was the highest at 34.6%, and 22.3% of livelihood'small' farms with a pig farm area of less than 2,000m2 had the most odor pollution. It was reported as severe and frequent complaints.

Basically, odors are generated from livestock manure in livestock sheds, and water quality such as groundwater and eutrophication of river lakes are deteriorated due to improper management of livestock manure. With my congestion, civil complaints are rapidly increasing among residents living around the barn due to fine dust and volatilization of odors.

As described above, in order to alleviate the discomfort of the residents near the livestock house and ensure a healthy living environment, reduction of the odor of the livestock house is urgently needed, and the agricultural industry policy should be put at the top priority.

In addition, there are about 200 kinds of gases generated from the livestock house, of which ammonia, hydrogen sulfide, and volatile fatty acids (VFAs) carbon dioxide, etc., can have a profound adverse effect not only on livestock but also on the health of workers.

Therefore, in order to reduce odor, effective odor reduction technology and a reduction facility that implements it are required, but first of all, effective odor reduction technology that can be applied to the pig farming field is not established. A lot of operating costs are required.

Conventional techniques for removing odorous substances generated from livestock houses have undergone various research and development, and the most commonly used methods are the adsorption method using activated carbon, the method of separately collecting and compressing odorous substances and treating them, and the incineration of odorous gases. There are various methods such as burning out odor substances, cultivating special microorganisms that remove odor and purifying odor substances using the microorganisms, deodorizing method using ozone, and hiding odor particles using deodorants or fragrances. It has been developed and put into practical use, but in most cases, installation costs are high and operation costs are high, so small businesses or livestock farmers postpone installation due to the burden of installation costs, or even if they are installed, the replacement cost of consumables and consumable parts is high. As it is not properly operated, it is not reaping the effectiveness of odor removal.

In addition, most of these odor purification devices or facilities are installed on the ground and are not aesthetically pleasing, take up a lot of installation space, and the space cannot be used for other purposes, as well as various limitations such as an increase in installation and maintenance costs. Exists.

Korean Patent Registration No. 10-1378371 (2014.03.20.)

The present invention was created to solve the above problems, and an object of the present invention is to discharge air containing ammonia gas, hydrogen sulfide, volatile fatty acids, carbon dioxide, etc. generated from a pig house buried underground to the outside space of the pig house, but the soil medium It is to provide a fusion production system of a livelihood underground pig farm and a ground greenhouse that can ventilate the pig house through a mutual beneficial filtration method that utilizes greenhouse media such as liquid medium to the maximum.

In addition, another object of the present invention is to provide a fusion production system of a livelihood underground pighouse and a ground greenhouse that purifies the air containing odor components generated in the pig house and then discharges it to the outside in order to solve the odor around the pig house.

In addition, another object of the present invention is to reduce the heating energy and activate the application of photosynthesis of crops by supplying the greenhouse with warmth and carbon dioxide purified by a soil medium, a soil filter, etc. in a part of the odor air generated in the pig house. It promotes the growth of crops, and the residual odor air flows into the trench filter and volatilizes to the outside through the porous biofilter, providing a fusion production system of live underground pig farms and ground greenhouses.

The present invention for the above purpose, a pig house buried underground; Doedoe installed on the upper side of the pig house, a ground greenhouse including a plurality of planting portions in which crops are planted, and a passage portion formed between the pair of planting portions; including, the planting portion, installed in the ground and air from the pig house It includes a vegetation filter unit that is introduced but supplied to the ground greenhouse after reducing odor components contained in the air introduced from the pig house, and the passage unit is installed in the ground in a longitudinal direction to contain the odor contained in the air introduced from the pig house. A trench filter unit for adsorbing components and discharging the purified air to the outer space of the ground greenhouse, and the vegetation filter unit and the trench filter unit include negative pressure generating means for generating a flow of air containing odor components generated from the pig house. Can be installed.

In addition, the vegetation filter unit is configured by sequentially stacking a porous filter, a bio-tea, and a compost soil layer from bottom to top to reduce the odor component of the air introduced from the pig house, and the air passing through the vegetation filter unit is supplied to the crops. It is characterized by containing ammonia gas that reacts with water to generate nitrogen fertilizer and carbon dioxide that promotes photosynthesis of crops.

In addition, the vegetation filter unit includes a duct through which air containing odors generated from the pig house is introduced, and a tank through which air from the pig house is introduced and crops are planted, and supplied to the tank through the duct. Air is characterized in that it contains ammonia gas and hydrogen sulfide dissolved in water contained in the water tank, and carbon dioxide that promotes photosynthesis of crops.

In addition, the trench filter unit includes a body installed longitudinally in the ground so that air introduced from the pighouse passes and is discharged to the outside of the ground greenhouse, and extends to the inside of the body to remove odor components contained in the air. And an exhaust fan that guides the flow of air so that the purified air is discharged to the outside.

In this case, the filter is preferably installed inclined in the direction of air travel to induce a zigzag air flow.

According to the fusion production system of a livelihood-type underground pighouse and a ground greenhouse, it is possible to ventilate the pig house by discharging air containing odor components generated from the underground pig house to a space outside the pig house, thus creating a hygienic and safe environment for livestock and breeders. It has the effect it provides.

In addition, according to the present invention, since the air containing the malodorous component generated in the pig house is purified using a trench filter, the purified air is discharged to the outside, thereby reducing the odor around the pig house and providing a hygienic environment. have.

And according to the present invention, air containing odor components generated when the ground greenhouse is a soil medium sequentially passes through the porous filter and the bio-tea, and then passes through the compost soil layer to reduce the odor components, but ammonia is the moisture in the ground greenhouse. By reacting with, nitrate, which is a nitrogen fertilizer, is produced, and carbon dioxide promotes photosynthesis of crops in ground greenhouses, which has the advantage of being applicable as a fusion system of livestock and greenhouse.

In addition, according to the present invention, when the ground greenhouse is configured for nutrient solution cultivation, air containing hydrogen sulfide, ammonia, and carbon dioxide generated from the pig house is supplied to the tank of the ground greenhouse, and odor components are adsorbed to the water of the tank to reduce odor. As carbon dioxide can promote photosynthesis of crops, it has an effect that can be applied as a fusion production system for pig farms and greenhouses.

In addition, according to the present invention, through the ceiling fan installed on the ceiling of the pig house, there is an effect of smooth ventilation by generating a flow of air so that air containing the odor of the underground pig house is discharged to the outside space of the pig house.

1 is a conceptual diagram showing a fusion production system of an underground pighouse and a ground greenhouse according to Example 1 of the present invention,
2 is a cross-sectional view showing a vegetation filter unit and a trench filter unit of the fusion production system of an underground pighouse and a ground greenhouse according to Example 1 of the present invention;
3 is a conceptual diagram showing a fusion production system of an underground pighouse and a ground greenhouse according to Example 2 of the present invention.

Features and advantages of the present invention may be more clearly understood by the embodiments described by the accompanying drawings.

The application of the present invention is not limited by the configuration and arrangement of components described in the embodiments of the present invention or illustrated in the drawings. The present invention may be implemented in different embodiments, and may be performed in various ways. In addition, the expressions and predicates used in the embodiments with respect to terms such as the orientation of a device or element are only used to simplify the description of the present invention, and do not indicate or mean that the related device or element should simply have a specific orientation. Does not. For example, terms such as “first” and “second” are used in the embodiments and claims describing the present invention, but these terms are not intended to represent or imply any relative importance or purpose.

In addition, terms or words used in the present specification and claims are not limited to their usual or dictionary meanings and should not be interpreted. It should be interpreted as having been described based on the meaning and concept that correspond to it.

Therefore, the present invention is not limited to the presented embodiments, and within the technical spirit of the present invention and the technical equivalents described in the claims to be described below by those of ordinary skill in the technical field to which the present invention belongs. Various modifications and changes are possible.

<Example 1>

In the following, with reference to the accompanying drawings will be described in detail a preferred embodiment 1 of the fusion production system of a livelihood type underground pighouse and a ground greenhouse according to the present invention.

1 is a conceptual diagram showing a fusion production system of an underground piglet and an aboveground greenhouse according to Example 1 of the present invention, and FIG. 2 is a vegetation filter of the fusion production system of an underground pighouse and an aboveground greenhouse according to Example 1 of the present invention. It is a cross-sectional view showing the part and the trench filter part.

As shown in Figs. 1 to 2, in Example 1 according to the present invention, part of the exhaust volume containing the malodorous component generated from the underground pig house is the soil medium of the ground greenhouse, and most of the displacement is the passage part that is the furrow of the ground greenhouse. We propose a convergence production system that reduces odors through a trench filter installed in and discharges it to the outside, and provides a beneficial environment for crops planted in the ground greenhouse by using the air generated from the underground pig house.

In the first embodiment of the present invention, the ground greenhouse 20 is a soil (solid) medium plant cultivation system, for example, tomato cultivation is preferably made, but is not limited thereto.

To this end, the present invention is basically made including a pig house 10 and a ground greenhouse 20.

Here, the pig house 10 is buried underground, and the ground greenhouse 20 is formed on the ground, which is an upper space of the pig house 10, and a plurality of planting parts 21, which is a space in which plants are planted, and a pair of planting It is formed between the parts 21 and includes a passage part 22 which is a space in which plants are not planted.

In this case, a groove may be formed in the planting part 21 and a furrow may be formed in the passage part 22.

Below the planting unit 21, a vegetation filter unit 210 is provided that is installed in the ground and supplies air obtained by filtering the malodorous components generated in the pig house 10 to the space of the ground greenhouse 20.

Here, the vegetation filter unit 210 is installed under the space where crops are planted to allow the air generated in the pig house 10 to flow in, but among the odors contained in the air generated in the pig house 10, nitrogen components from ammonia, hydrogen sulfide, etc. , Sulfur component, etc. can be dissolved and supplied to the planting unit 21 as bio-fertilizer.

To this end, the vegetation filter unit 210 is. The porous filter 211, the biocar 212, and the compost soil layer 213 are sequentially stacked from the bottom to the top so that air having reduced odor components of the air introduced from the pig house 10 is supplied to the ground greenhouse. I can.

The porous filter 211 is preferably a layer made of wood, and the porous filter 211 adsorbs and dissolves hydrogen sulfide and ammonia gas in the air introduced from the pig house 10 to convert odor components into biofertilizer. have.

Here, the porous filter 211 may be configured as a wooden piece as a biofilter to allow bacteria to inhabit. Through this, hydrogen sulfide and ammonia gas are effectively removed, and in particular, the porous filter 211 made of wooden wool has excellent adsorption and removal performance of hydrogen sulfide, so that odors can be effectively reduced.

In addition, the porous filter 211 may be configured such that a frame body (not shown) in which a plurality of through holes are formed and a wooden piece is filled in the frame body (not shown) to adsorb odor components.

In addition, the biochar 212 stacked on the porous filter 211 is a solid material with a high carbon content produced when pyrolysis in an oxygen-free environment using biomass. The raw materials for production can be obtained from biomass and solid waste from the agricultural and livestock industry, so they have the advantage of being rich and low cost.

When air containing odor components remaining after passing through the porous filter 211 passes through the biocar 212, odor-causing substances such as ammonia and hydrogen sulfide and carbon dioxide are adsorbed to generate ammonia gas, hydrogen sulfide, and carbon dioxide. Since the amount of discharge is significantly reduced, odors around the pig house 10 can be effectively reduced.

That is, the air introduced from the pig house 10 is partially removed after passing through the porous filter 211, but the remaining malodorous components may be removed while passing through the biocar 212. Through ventilation of the pig house 10, it not only provides a pleasant and hygienic environment to livestock and breeders, but also provides a pleasant environment by resolving odors around the pig house 10 because the air purified from odor components is discharged to the outside. have.

In addition, in the air supplied to the ground through the vegetation filter unit 210, ammonia gas that generates nitrogen fertilizer by reacting with drip water or water supplied to the crop, and carbon dioxide that promotes photosynthesis of the crop are contained. It is characterized by being.

More specifically, the formula for generating nitrogen fertilizer provided to crops using the ammonia gas of such a pig house 10 is as follows.

_{(1) NH 3 + H 2} O → NH 4 + + OH -

^{_{(2) NH 4 + + 2O}} 2 → NO 3 - + 2H + + H 2 O

As in (1) above, ammonia gas (NH ₃ ) generated in the pig house (10) reacts with water in the ground greenhouse (20 _{) to produce ammonium (NH 4} ⁺ ), and as shown in (2), ammonium (NH ₄ ⁺⁾ ) nitrate (NO ₃ as the oxygen (2O ₂₎ the reaction of the ^air-a) with hydrogen and water can be produced.

At this time, the resulting nitrate (NO ₃ ^-) has the effect that can help the growth of the crops to supply nutrients to the crop as a nitrate fertilizer.

In addition, carbon dioxide in the air supplied from the pig house 10 to the planting unit 21 has an effect of promoting photosynthesis of crops.

That is, after the air containing the malodorous component generated in the pig house 10 is filtered and reduced by the vegetation filter unit 210, the air is supplied to the space of the ground greenhouse to reduce the odor and create a hygienic environment. It can act to lose weight and aid in the growth of the crop.

In addition, the vegetation filter unit 210 may have a configuration corresponding to the number of the planting units 21.

And at the lower side of the passage part 22, it is installed in the ground in a longitudinal direction to adsorb odor components contained in the air introduced from the pig house 10 to discharge the purified air into the outer space of the ground greenhouse 20. A trench filter unit 220 is provided.

The trench filter unit 220 may be disposed in the ground between the pair of vegetation filter units 210.

The trench filter unit 220 is formed between the pair of planting units 21 and is installed in the longitudinal direction below the passage unit 22 in which no crops are planted.

Here, the trench filter unit 220 is. A body part 221 formed in a cylindrical shape so that the air of the introduced pig house 10 passes and is discharged to the outer space of the ground greenhouse 20 and is installed in a longitudinal direction in the ground, and the body part has a cylindrical shape to allow air to pass therethrough. It may include a plurality of filters 222 extending from the inner surface of the 221 to remove odor components contained in the air.

At this time, the air containing the malodorous component introduced from the pig house 10 passes through the inner side of the body part 221 in a hybrid manner, and is adsorbed and removed by the filter 222 to the external space of the ground greenhouse 20 The purified air can be discharged.

In addition, the trench filter unit 220 may further include an exhaust fan 223 for inducing a flow of air so that the purified air is discharged to the outdoor space 30.

In addition, the filter 222 may remove odor components from the air passing through the body portion 221.

In addition, the filter formed on the inside of the trench filter unit 220 may be installed to be inclined in the direction of air travel so as to induce a zigzag air flow.

Through this, the air introduced into the body part 221 is hydrogen sulfide while in contact with the filter 222 in a long section while flowing in a zigzag through the filter 222 arranged with an inclination in a zigzag shape. , Odor components such as ammonia gas may be adsorbed and dissolved.

More specifically, as shown in FIG. 2, the air introduced from the pig house 10 is in contact with the filter 222 in a long section while passing through the filter 222 in a zigzag within the body part 221. After the odor component is effectively removed while being adsorbed/dissolved in the filter 222, the purified air may be discharged to the outside.

Therefore, the air containing the malodorous component generated in the pig house 10 passes through the inside of the body portion 221 of the trench filter unit 220, and the odor component is adsorbed and removed by the filter 222, and then purified air. Is discharged to the outdoor space 30 on the ground, it is possible to reduce the odor around the pig house (10).

At this time, the filter 222 may be made of a porous biofilter, and may be made of at least one of bark, rice husk, sawdust, wood grain, and coconut fiber made of a porous body through which adsorption is performed, but is not limited thereto, and adsorption of odor is possible. Various materials such as activated carbon may be used.

In addition, the ceiling of the pig house is provided with a negative pressure generating means (F) for inducing the flow of air. The negative pressure generating means (F) is basically installed by being buried in the ceiling of the pig house 10 as a negative pressure fan, and the air containing the odor component generated in the pig house 10 is supplied to the vegetation filter unit. Air flow may be generated so as to be introduced into 210 and the trench filter unit 220.

At this time, the negative pressure generating means (F) is composed of a first negative pressure fan (F1) mounted on the vegetation filter unit 210, and a second negative pressure fan (F2) mounted on the trench filter unit 220. I can.

Through this, the flow of air in the pig house 10 is induced to occur upward, and the air containing the malodorous component in the pig house 10 follows the vegetation filter unit 210 and the trench filter unit 220. 10) Ventilation of the pig house 10 can be made effectively by inducing discharge to the outside space.

<Example 2>

Hereinafter, a preferred embodiment 2 of the present invention will be described in detail with reference to the accompanying drawings.

In Embodiment 2 of the present invention, the configuration of Embodiment 1 is included, and the same reference numerals are used for corresponding configurations.

Figure 3 is a conceptual diagram showing a fusion production system of a ground greenhouse in which nutrient solution cultivation is performed on an underground pighouse and bench according to Example 2 of the present invention.

As shown in FIG. 3, in Embodiment 2 of the present invention, the configuration of the ground greenhouse 20 and the vegetation filter unit 210 in Embodiment 1 is partially modified, and in Embodiment 2, the ground greenhouse 20 is liquid It may consist of a medium plant cultivation system.

More specifically, the above-ground greenhouse 20 has a configuration in which liquid medium lettuce, parsley, etc. can be cultivated, and between the planting unit 21 and a pair of planting units 21, which is a space in which crops are planted at the top. It is formed and includes a passage portion 22 that is a space where no crops are planted.

In the second embodiment of the present invention, the ground greenhouse 20 is a liquid culture medium, and the ground greenhouse 20 is installed on the upper side of the pig house 10, and the vegetation filter unit 210 is the pig house 10 A duct 214 into which air containing odor generated from is introduced, and a water tank 215 through which the air of the pig house 10 is introduced and crops are planted.

And the duct 214 is connected to the lower end of the water tank 215 and functions to supply the air generated from the pig house 10 to the ground greenhouse, but the odor component of the pig house 10 supplied from the duct 214 is a water tank As it reacts with the water of 215 and dissolves, odor components can be filtered and discharged to the ground greenhouse.

In addition, a porous filter member (not shown) capable of adsorbing and removing malodorous components generated from the pig house 10 is further mounted inside the vegetation filter unit 210 to filter and partially reduce malodorous components. By supplying to the water tank 215, it may be configured to effectively remove odor components.

More specifically, ammonia gas and hydrogen sulfide are contained in the air supplied from the pig house 10 to the water tank 215, and the ammonia and hydrogen sulfide are dissolved in the water contained in the water tank 215 and are adsorbed thereto. The air that has passed through 210 is reduced in odor, and the purified air may be discharged to the space of the ground greenhouse 20.

In addition, carbon dioxide is further contained in the air supplied to the water tank 215 through the duct, and this carbon dioxide promotes photosynthesis of crops planted in the water tank 215 to benefit the growth of plants.

In addition, the passage part 22 further includes a trench filter part 220 installed in the underground under the passage part 22 in a longitudinal direction to adsorb odor components generated in the pig house 10, After adsorbing and removing odor components in the air introduced from the pig house 10 through the pig house 10, the purified air may be discharged to the external space of the ground greenhouse 20.

As described above, the fusion production system of the underground pig house 10 and the above-ground greenhouse 20 according to the present invention can configure a sanitary environment for the underground pig house by ventilating the underground pig house, and occurred in the pig house 10. Since the odor components are filtered and provided to the ground, odors around the pig house 10 can be reduced, while promoting the growth of crops grown in the ground greenhouse 20 by using carbon dioxide and ammonia gas generated from the underground pig house. There is an effect that can achieve the fusion and complex production of crops.

As described above, the rights of the present invention are not limited to the embodiments described above, but are defined by what is described in the claims, and various modifications and adaptations within the scope of the rights described in the claims by those of ordinary skill in the field of the present invention It is self-evident that you can do it.

10: pig house 20: ground greenhouse
21: planting unit 210: vegetation filter unit
211: porous filter 212: bio tea
213: compost soil layer 214: duct
215: water tank 22: passage
220: trench filter part 221: body part
222: filter 223: exhaust fan
30: outdoor space F: negative pressure generating means
F1: 1st sound pressure fan F2: 2nd sound pressure fan

Claims (5)

A pig house (10) buried underground;
Doedoe installed on the upper side of the pig house 10, a ground greenhouse 20 including a plurality of planting portions 21 in which crops are planted, and a passage portion 22 formed between the pair of planting portions 21; Including,
The planting unit 21 is a vegetation filter unit 210 supplied to the ground greenhouse 20 after air is introduced from the pig house 10 to reduce odor components contained in the air introduced from the pig house 10 ),
In the passage part 22, a trench filter installed in the ground in a longitudinal direction to adsorb odor components contained in the air introduced from the pig house 10 to discharge the purified air to the external space of the ground greenhouse 20 The unit 220 is provided,
In the vegetation filter unit 210 and the trench filter unit 220, the flow of air is controlled so that the air containing the odor component generated in the pig house 10 is introduced into the vegetation filter unit 210 and the trench filter unit 220. The negative pressure generating means (F) to generate is installed,
The vegetation filter unit 210 includes a porous filter 211, a bio-tea 212, and a compost soil layer 213 sequentially from the bottom to the top so as to reduce odor components contained in the air introduced from the pig house 10. It is composed of stacked,
The air passing through the vegetation filter unit 210 contains ammonia gas that generates nitrogen fertilizer by reacting with water supplied to crops, and carbon dioxide that promotes photosynthesis of crops. Convergence production system.
A pig house (10) buried underground;
Doedoe installed on the upper side of the pig house 10, a ground greenhouse 20 including a plurality of planting portions 21 in which crops are planted, and a passage portion 22 formed between the pair of planting portions 21; Including,
The planting unit 21 is a vegetation filter unit 210 supplied to the ground greenhouse 20 after air is introduced from the pig house 10 to reduce odor components contained in the air introduced from the pig house 10 ),
In the passage part 22, a trench filter installed in the ground in a longitudinal direction to adsorb odor components contained in the air introduced from the pig house 10 to discharge the purified air to the external space of the ground greenhouse 20 The unit 220 is provided,
In the vegetation filter unit 210 and the trench filter unit 220, the flow of air is controlled so that the air containing the odor component generated in the pig house 10 is introduced into the vegetation filter unit 210 and the trench filter unit 220. The negative pressure generating means (F) to generate is installed,
The vegetation filter unit 210 includes a duct 214 through which air containing odor generated from the pig house 10 is introduced, and the air of the pig house 10 is introduced through the duct 214 and crops are planted. Including a water tank 215,
A livelihood type, characterized in that the air supplied to the water tank 215 through the duct 214 contains ammonia gas and hydrogen sulfide dissolved in water contained in the water tank 215, and carbon dioxide that promotes photosynthesis of crops. Convergence production system of underground pighouse and ground greenhouse.
delete The method according to claim 1 or 2,
The trench filter unit 220,
The body part 221 installed in the lengthwise direction in the ground so that the air introduced from the pig house 10 passes and is discharged to the outside of the ground greenhouse 20, and the body part 221 is formed extending inward to the air. Convergence production of a livelihood type underground pighouse and a ground greenhouse, characterized in that it comprises a filter 222 for removing contained odor components and an exhaust fan 223 for inducing the flow of air so that the purified air is discharged to the outside. system.
The method of claim 4,
The filter 222,
Convergence production system of a livelihood underground pighouse and a ground greenhouse, characterized in that it is installed inclined in the direction of air to induce a zigzag air flow.

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