CN111670634A - Ecological breeding technical method - Google Patents

Abstract

The invention discloses an ecological breeding technical method, which comprises the following steps: s1, installing solar photovoltaic power generation equipment around the cultivation shed and on the roof for power collection; s2, collecting animal wastes; s3, conveying the excrement collected in the step S2 to a fermentation tank, and introducing methane generated by fermentation into a storage chamber A; s4, conveying the feces fermented in the S3 to a settling chamber for standing and settling for 7-15 days; s5, conveying the upper layer liquid fecal treatment material processed in the step S4 to a storage chamber B through a pipeline, and conveying the solid precipitate to a storage chamber C; s6, irrigating the liquid fecal treatment substance in the storage chamber B to a plant planting area of the farm, and covering the solid sediment in the storage chamber C on the soil of the plant planting area of the farm. The ecological breeding method provided by the invention greatly saves breeding cost, reduces environmental pollution caused by breeding, and achieves high waste utilization rate.

Description

Ecological breeding technical method

Technical Field

The invention relates to the technical field of ecological breeding, in particular to an ecological breeding technical method.

Background

The term ecosystem was first introduced in the field of ecological research. Since the concept of "ecosystem" was proposed in 1935 by the american ecology specialist tamsuli (a.g. tansley), it has been widely used in various fields of ecology. The common view of the ecology boundary on the ecosystem is as follows: the ecological system is a complex established by the interaction between the biological and non-biological environments and the biological population in a certain time and space range and used for producing products under the mutual domination of human and nature, and is a natural-social-economic combined composite ecological system under the regulation and control of human, and has three basic functional characteristics: energy flow, material circulation and information transfer.

At present, the development of the cattle raising industry in China is rapid, the development of a large-scale cattle farm is continuously strong, most cattle raising households do not have a regular integrated breeding method, on one hand, the energy consumption of the cattle farm is very large, and particularly, the cost is very large on the basis of electric power, a large amount of cattle manure generated in the cattle raising process cannot be processed by some cattle raising households, the cattle manure is accumulated together and fermented, mosquitoes and flies are easy to attract, land pollution is easy to cause, and the result difficult to process is formed. However, the amount of cow dung is large, so that a great amount of manpower and material resources are required for a cow owner to process the cow dung every day, but the return cannot be obtained, and the enthusiasm of the cow owner for processing the cow dung is not high. In addition, the utilization rate of the field is low when the beef cattle are separately cultured, and how to carry out additional supporting industry development around the beef cattle culture is also an important problem for increasing the added value.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an ecological breeding technical method which has the advantages of reducing pollution, reducing cost and increasing industrial added value.

An ecological breeding technical method comprises the following steps:

s1, installing solar photovoltaic power generation equipment around the cultivation shed and on the roof for power collection;

s2, collecting the excrement of the beasts or poultry in the breeding shed;

s3, conveying the excrement collected in the step S2 to a fermentation tank, and introducing methane generated by fermentation into a storage chamber A;

s4, conveying the feces fermented in the S3 to a settling chamber for standing and settling for 7-15 days to obtain liquid feces treatment substance on the upper layer of the settling chamber and solid precipitate on the lower layer of the settling chamber;

s5, conveying the upper layer liquid fecal treatment material processed in the step S4 to a storage chamber B through a pipeline, and conveying the solid precipitate to a storage chamber C;

s6, irrigating the liquid fecal treatment in the storage chamber B to a plant growing area of a farm, covering the solid precipitate in the storage chamber C on the soil of the plant growing area of the farm for 10 months to 3 months of the next year, or pouring the solid precipitate in the storage chamber C into an aquaculture pond as food for the aquatic animals.

Further, in the step S1, the power generated by the photovoltaic power generation device is stored in a storage battery or is incorporated into a power grid, the storage battery is connected to various electric devices in the cultivation shed, and the electric devices are lighting devices, air exhaust devices or sterilization devices.

Further, the storage chamber A is connected with a gas pipeline, and supplies heat to a boiler in the cultivation shed through combustion.

Further, install the water pump in the apotheca B, the output of water pump passes through the pipe connection to shower head, and the shower head is installed in the top in plant species district.

Further, in step S6, sludge is formed by the excrement generated after the solid sediment is eaten by the fishes in the aquaculture pond, the sludge at the bottom of the aquaculture pond is salvaged in 10 to 12 months per year, and the salvaged sludge is covered on the soil of the plant planting area.

Furthermore, two independent spaces are arranged in the settling chamber B, the two independent spaces are separated by a filtering device, the filtering device is of a three-layer structure, the inner layer and the outer layer are wooden grids, the middle layer is a metal filter screen clamped between the wooden grids, the aperture of the metal filter screen is 10-20 meshes, excrement fermented in the S3 step firstly enters one space of the settling chamber, a liquid part permeates into the other space of the settling chamber through the filtering device in the settling chamber, and the water pump is located in the space on one side of the liquid permeation direction.

Compared with the prior art, the invention has the following beneficial effects:

(1) the invention directly applies the collected electric power to the energy supply of the electric equipment of the cultivation shed, thereby saving the cost;

(2) the invention supplies heat to the boiler of the cultivation shed by utilizing the methane of the animal excrement in the cultivation shed, thereby saving the cost and energy consumption;

(3) according to the invention, the fermented animal excrement is filtered and separated by the settling chamber, so that one part of the filtered and separated animal excrement is used for plant fertilization, the other part of the filtered and separated animal excrement is used for aquaculture, and waste resources are utilized in a grading manner.

The ecological breeding method provided by the invention greatly saves breeding cost, reduces environmental pollution caused by breeding, and achieves high waste utilization rate.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Example 1

An ecological breeding technical method comprises the following steps:

s1, installing solar photovoltaic power generation equipment around the cultivation shed and on the roof for power collection;

s2, collecting the excrement of the beasts or poultry in the breeding shed;

s3, conveying the excrement collected in the step S2 to a fermentation tank, and introducing methane generated by fermentation into a storage chamber A;

s4, conveying the feces fermented in the S3 to a settling chamber for standing and settling for 7 days to obtain liquid feces processed matter on the upper layer of the settling chamber and solid precipitate on the lower layer of the settling chamber;

s5, conveying the upper layer liquid fecal treatment material processed in the step S4 to a storage chamber B through a pipeline, and conveying the solid precipitate to a storage chamber C;

s6, irrigating the liquid fecal treatment in the storage chamber B to a plant growing area of a farm, covering the solid precipitate in the storage chamber C on the soil of the plant growing area of the farm for 10 months per year, or pouring the solid precipitate in the storage chamber C into an aquaculture pond as food for the aquatic animals.

The sedimentation chamber B is internally provided with two independent spaces which are separated by a filtering device, the filtering device is of a three-layer structure, the inner layer and the outer layer are wooden grids, the middle layer is a metal filter screen clamped between the wooden grids, the aperture of the metal filter screen is 18 meshes, excrement fermented in the S3 step firstly enters one space of the sedimentation chamber, a liquid part permeates into the other space of the sedimentation chamber through the filtering device in the sedimentation chamber, and the water pump is positioned in the space on one side of the liquid permeation direction.

Example 2

S1, installing solar photovoltaic power generation equipment around the cultivation shed and on the roof for power collection;

s2, collecting the excrement of the beasts or poultry in the breeding shed;

s3, conveying the excrement collected in the step S2 to a fermentation tank, and introducing methane generated by fermentation into a storage chamber A;

s4, conveying the feces fermented in the S3 to a settling chamber for standing and settling for 8 days to obtain liquid feces processed matter on the upper layer of the settling chamber and solid precipitate on the lower layer of the settling chamber;

s5, conveying the upper layer liquid fecal treatment material processed in the step S4 to a storage chamber B through a pipeline, and conveying the solid precipitate to a storage chamber C;

s6, irrigating the liquid fecal treatment in the storage chamber B to a plant growing area of a farm, covering the solid precipitate in the storage chamber C on the soil of the plant growing area of the farm for 11 months per year, or pouring the solid precipitate in the storage chamber C into an aquaculture pond as food for the aquatic animals.

The sedimentation chamber B is internally provided with two independent spaces which are separated by a filtering device, the filtering device is of a three-layer structure, the inner layer and the outer layer are wooden grids, the middle layer is a metal filter screen clamped between the wooden grids, the aperture of the metal filter screen is 14 meshes, excrement fermented in the S3 step firstly enters one space of the sedimentation chamber, a liquid part permeates into the other space of the sedimentation chamber through the filtering device in the sedimentation chamber, and the water pump is positioned in the space on one side of the liquid permeation direction.

Example 3

S1, installing solar photovoltaic power generation equipment around the cultivation shed and on the roof for power collection;

s2, collecting the excrement of the beasts or poultry in the breeding shed;

s3, conveying the excrement collected in the step S2 to a fermentation tank, and introducing methane generated by fermentation into a storage chamber A;

s4, conveying the feces fermented in the S3 to a settling chamber for standing and settling for 10 days to obtain liquid feces treatment substances on the upper layer of the settling chamber and solid precipitates on the lower layer of the settling chamber;

s5, conveying the upper layer liquid fecal treatment material processed in the step S4 to a storage chamber B through a pipeline, and conveying the solid precipitate to a storage chamber C;

s6, irrigating the liquid fecal treatment in the storage chamber B to a plant growing area of a farm, covering the solid precipitate in the storage chamber C on the soil of the plant growing area of the farm for 12 months per year, or pouring the solid precipitate in the storage chamber C into an aquaculture pond as food for the aquatic animals.

The sedimentation chamber B is internally provided with two independent spaces which are separated by a filtering device, the filtering device is of a three-layer structure, the inner layer and the outer layer are wooden grids, the middle layer is a metal filter screen clamped between the wooden grids, the aperture of the metal filter screen is 12 meshes, excrement fermented in the S3 step firstly enters one space of the sedimentation chamber, liquid partially permeates into the other space of the sedimentation chamber through the filtering device in the sedimentation chamber, and the water pump is positioned in the space on one side of the liquid permeation direction

In the invention, the electric power generated by the photovoltaic power generation equipment in the step S1 is stored in the storage battery or is merged into the power grid, the storage battery is connected with various electric equipment in the cultivation shed, and the electric equipment is lighting equipment or air exhaust equipment or sterilization equipment.

In the invention, a storage chamber A is connected with a gas pipeline and supplies heat to a boiler in the cultivation shed through combustion.

In the invention, a water pump is arranged in the storage chamber B, the output end of the water pump is connected to a spray header through a pipeline, and the spray header is arranged above the plant growing area.

In the invention, in step S6, the excrement generated after the solid sediment is eaten by the fishes in the aquaculture pond is deposited at the bottom of the aquaculture pond to form sludge, the sludge at the bottom of the aquaculture pond is salvaged in 10-12 months every year, and the fished sludge is covered on the soil in the plant planting area.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. An ecological breeding technical method is characterized by comprising the following steps:

s1, installing solar photovoltaic power generation equipment around the cultivation shed and on the roof for power collection;

s2, collecting the excrement of the beasts or poultry in the breeding shed;

s3, conveying the excrement collected in the step S2 to a fermentation tank, and introducing methane generated by fermentation into a storage chamber A;

s4, conveying the feces fermented in the S3 to a settling chamber for standing and settling for 7-15 days to obtain liquid feces treatment substance on the upper layer of the settling chamber and solid precipitate on the lower layer of the settling chamber;

s5, conveying the upper layer liquid fecal treatment material processed in the step S4 to a storage chamber B through a pipeline, and conveying the solid precipitate to a storage chamber C;

s6, irrigating the liquid fecal treatment in the storage chamber B to a plant growing area of a farm, covering the solid precipitate in the storage chamber C on the soil of the plant growing area of the farm for 10 months to 3 months of the next year, or pouring the solid precipitate in the storage chamber C into an aquaculture pond as food for the aquatic animals.

2. The ecological breeding technical method according to claim 1, characterized in that: and S1, storing the power generated by the photovoltaic power generation equipment in a storage battery or merging the power into a power grid, wherein the storage battery is connected with various electric equipment in the cultivation shed, and the electric equipment is lighting equipment or air exhaust equipment or sterilization equipment.

3. An ecological cultivation technique according to claim 1, characterized in that the storage chamber A is connected with a gas pipeline for supplying heat to the boiler in the cultivation shed by combustion.

4. The ecological cultivation technical method according to claim 1, wherein a water pump is installed in the storage chamber B, the output end of the water pump is connected to a spray header through a pipeline, and the spray header is installed above the plant growing area.

5. The ecological cultivation technical method according to claim 1, characterized in that in step S6, the excrement generated after the solid sediment is eaten by the fish in the aquaculture pond deposits on the bottom of the aquaculture pond to form sludge, the sludge at the bottom of the aquaculture pond is salvaged in 10 to 12 months per year, and the salvaged sludge is covered on the soil in the plant planting area.

6. The ecological breeding technical method according to claim 1 or 4, wherein two independent spaces are arranged in the settling chamber B, the two independent spaces are separated by a filtering device, the filtering device is of a three-layer structure, the inner layer and the outer layer are wooden grids, the middle layer is a metal filter screen clamped between the wooden grids, the aperture of the metal filter screen is 10-20 meshes, the excrement fermented in the S3 step firstly enters one space of the settling chamber, the liquid partially permeates into the other space of the settling chamber through the filtering device in the settling chamber, and the water pump is positioned in the space on one side of the liquid permeating direction.