KR101782135B1 - Method for disposal of Animal Corpse - Google Patents

Abstract

The present invention relates to a carcass disposal method. The method includes: a step (step 1) of forming a base layer by stacking a mixture made by mixing popped rice hulls, peat, and environmental stones; a step (step 2) of forming a first carcass layer by stacking a carcass with complex microorganisms, strayed onto the carcass, on the base layer; a step (step 3) of forming a middle layer by stacking the mixture of the popped rice hulls, peat, and environmental stones on the first carcass layer; a step (step 4) of forming a second carcass layer by stacking the carcass with the sprayed complex microorganisms on the middle layer; a step (step 5) of forming an upper layer by stacking the mixture of the popped rice hulls, peat, and environmental stones on the second carcass layer; and a step (step 6) of forming a cover layer by stacking soil on the upper layer. As such, the present invention is capable of speeding up decomposition at a low cost, preventing the generation of foul odors and leachate, and making organic fertilizers by using popped rice hulls, peat, environmental stones, and complex microorganisms to the animal carcass, which has been butchered or died due to disease.

Description

Method for disposal of Animal Corpse

The present invention relates to a method for treating an animal carcass, and more particularly, to a method for treating an animal carcass by treating a carcass of an animal slaughtered or killed by disease with puffy rice hull, peat, elvan stone, clay and complex microorganisms, To an animal carcass processing method capable of effectively treating leachate and odor.

For livestock carcasses that have been killed or suspected of being infected with a livestock epidemic, each country treats it in a way that is appropriate for its environment. It is mainly used for anaerobic digestion, rendering, composting, burial The process is performed by burial, alkaline hydrolysis, lactic acid fermentation, and nontraditional technologies.

In Korea, livestock carcasses are rapidly incinerated and buried according to Livestock Infectious Diseases Prevention Law. However, in Korea, mainly burial treatment methods are mainly used.

The amount of livestock carcasses that must be buried by the livestock epidemic that occurs each year can be further increased in the future, so the buried area is bound to expand. Therefore, when the livestock carcasses buried in the livestock epidemic are buried, the burial method and insufficient consideration of the environmental factors are causing harm to the second environment such as odor and soil and groundwater pollution. .

In general, when buried in the ground, the carcass degradation rate is much slower due to the lack of air circulation than when it is left outside the ground. If the degradation proceeds slowly, the odor and gas will continue to be generated Thereby causing contamination of the environment.

In the case of burnt lime used for burial of livestock livestock, it is mainly used for the purpose of bactericidal action, but it not only hinders the decomposition rate of the carcass, but also changes the soil in the buried area to strongly alkaline, The microorganisms of the microorganisms are killed and a large amount of odor and leachate are generated.

Korean Patent Registration No. 10-1097919 (Dec. 22, 2011) discloses a method for producing a green sheet, comprising the steps of: forming buried papers so as to have a depth of 10 m from the ground and a length of 2 m each, Spraying with a stone power composition having a thickness of 1 m in the above-mentioned buried ground with a stone power composition comprising charcoal, jewelery, elvan, germanium, white carbon, feldspar, gypsum, kaolin, wollastonite, clay and ilite powder, Installing a pore tube unit such that the end of the pore tube unit faces the ground on the buried paper in which the power composition is sprayed; Spraying the fermented sawdust fermented by adding Bacillus bacteria to the upper part of the pipe connected to the pipe tube unit to a thickness of 30 cm, burying the livestock poultry on the fermented sawdust, And the land is sprayed with fermented sawdust to a thickness of 30 cm, and then landing the livestock is repeated up to a height of 2 m below the ground surface. In addition, the soil and bentonite from the lower surface 2 m to the earth surface are mixed with 8: , And then filling the soil with a mixture soil mixed with soil, and then filling up the soil with a mortar to a height of 3 m above the earth's surface.

10% by weight of charcoal, 8% by weight of juniper, 12% by weight of elvan, 5% by weight of germanium, 15% by weight of white carbon, There is a problem in that the manufacturing cost of the stone power composition of 7 weight% of feldspar, 5 weight% of gypsum, 10 weight% of kaolin, 7 weight% of wollastonite, 13 weight% of clay and 8 weight% of ilite is expensive, There is a problem that the decomposition rate of the catalyst is not sufficiently fast.

KR 10-1097919 B1 Dec 22, 2011.

It is an object of the present invention to provide a method for efficiently treating leachate and odor with decomposition treatment at a low cost by using swollen rice hulls, peat, elvan stone, clay and composite microorganisms as an animal body slaughtered or killed by disease infection To provide a method for treating animal carcasses.

In order to achieve the above object, the present invention provides the following means.

The present invention relates to a method for producing a base layer, comprising: (l) forming a base layer by laminating a mixture of puffed rice hull, peat and envirron stone; (Step 2) of forming a first animal carcass layer by laminating an animal carcass onto which the complex microorganism is injected on the base layer; Laminating a mixture of puffed rice hull, peat, and envirron stone on the first animal carcass layer to form an intermediate layer (step 3); (Step 4) of forming a second animal carcass layer by laminating an animal carcass on which the complex microorganism is injected on the intermediate layer; Laminating a mixture of puffed rice hull, peat, and envirron stone on the second animal carcass layer to form an upper layer (step 5); And forming a cover layer by laminating the soil on the upper layer (step 6); And a method for treating an animal carcass.

Wherein the mixture comprises 50 to 70% by weight of puffed rice hull, 20 to 30% by weight of peat and 10 to 20% by weight of envirron stone, wherein the rice husk is heated at a temperature of 250 to 320 캜, a pressure of 600 to 700 kg / , And the envirron stone is mixed with 75 to 85% by weight of elvan and 15 to 25% by weight of clay.

The complex microorganism is prepared by mixing 80% by weight of germanium peroxidase, 5% by weight of lactobacillus, 5% by weight of Bacillus subtilis, 5% by weight of photosynthetic bacteria and 5% by weight of molasses and incubating at 35 to 40 ° C for 20 to 30 days .

5 to 15 parts by weight of baked clay is precipitated in 24 to 36 hours and clean water of the upper layer is collected in 100 parts by weight of natural germanium water. The baked clay is washed with 400 g of powdery clay containing 5% Lt; 0 > C for 1 hour.

45 to 55 parts by weight of a mixture of 100 parts by weight of total animal carcass, total mixture of chopped rice hull, peat, and envirron stone is used, 50% by weight of the mixture is laminated on the base layer, 36% by weight is laminated on the intermediate layer , And 14% by weight are laminated on the upper layer.

When the animal carcass is a pig, 200 L of the complex microorganism is used for 100 tons of the animal carcass, and when the animal carcass is chicken, 100 L of the complex microorganism is used for 20 tons of the animal carcass, 200 L of the complex microorganism is used for 100 ton of animal carcass and 100 L of the complex microorganism is used for 20 ton of the animal carcass when the animal carcass is duck.

The method for treating animal carcasses according to the present invention can decompose the carcass of an animal slaughtered or killed by infectious disease at a high rate at a low cost by using swollen rice hull, peat, elvan, clay and complex microorganisms, There is no leachate, and organic fertilizing is possible.

1 is a view for explaining a method of treating an animal carcass according to the present invention.
Fig. 2 is a photograph of a chicken ladle in which puffed rice hull, embarrhython, and peat are laminated in a transparent container, a chicken body to which a complex microorganism is sprayed is laminated, and peat, Fig. 4 is a photograph after 15 days, Fig. 5 is a photograph after 30 days, and Fig. 6 is a photograph after 40 days.
FIG. 7 is a photograph showing the reprocessing buried soil digging work in Jeongcheon-ri, Euho-gun, Gimje city.
Fig. 8 is a photograph showing the vinyl on the floor after the buried soil digging operation.
Fig. 9 is a photograph showing the formation of an underlying layer by laminating a mixture of puffed rice hull, peat and envirron stone.
Fig. 10 is a photograph showing an animal carcass laminated on the base layer.
11 is a photograph of spraying the complex microorganism onto the carcass.
FIG. 12 is a photograph showing the formation of an upper layer by laminating a mixture of puffy rice hull, peat, and envirron stone on an animal body on which the complex microorganism is sprayed.
FIG. 13 is a photograph of the upper layer with upper vinyl covering.
FIG. 14 is a photograph showing the cover layer formed by laminating the soil on the upper vinyl.
Fig. 15 is a photograph showing the foreground after completion of landfill.

Hereinafter, the present invention will be described in detail.

1 is a view for explaining a method of treating an animal carcass according to the present invention.

Referring to FIG. 1, a method of treating an animal carcass according to the present invention will be described.

Since the animal carcass treatment according to the present invention is carried out in the buried ground, it is possible to first form the burial ground and treat the animal carcass according to the following procedure.

The method for treating animal carcass according to the present invention comprises:

(Step 1) of laminating a mixture of puffed rice hull, peat, and envirron stone to form the base layer 10;

A step (step 2) of forming a first animal carcass layer 20 by laminating animal bodies on which the complex microorganisms are injected on the base layer 10;

A step (step 3) of forming an intermediate layer 30 by laminating a mixture of puffy rice hull, peat, and envirron stone on the first animal carcass layer 20;

A step (step 4) of forming a second animal carcass layer 40 by laminating an animal carcass on which the complex microorganism is sprayed on the intermediate layer 30;

A step (step 5) of forming an upper layer 50 by laminating a mixture of puffed rice hull, peat, and environe stone on the second animal carcass layer 40; And

Laminating the soil on the upper layer (50) to form a cover layer (60);

.

In the step 1, the base layer 10 preferably contains 50 to 70 wt% of puffed rice hull, 20 to 30 wt% of peat, and 10 to 20 wt% of environe stone.

If the swollen rice husk is contained in an amount of less than 50% by weight, the function of absorbing moisture is insufficient and the function of smoothly supporting microbial activity is insufficient. If the swollen rice hull is contained in an amount exceeding 70% by weight, .

When the peat is contained in an amount of less than 20% by weight, the function of assisting the fermentation of the microorganism is insufficient, so that it takes a long time for the carcass to compost. When the peat exceeds 30% by weight, .

If the envylone stone is contained in an amount of less than 10% by weight, the deodorizing and disinfecting functions become insufficient. If the envylone stone is contained in an amount of more than 20% by weight, there is a problem that puffy rice hulls and peat are less contained.

The swollen rice husk means that the tissue is softened by processing the rice husk at high temperature and high pressure by expanding the general rice husk at a high temperature and a high pressure. Through such processing, the water absorption ability is remarkably increased and the polarity is improved and the moisture content is easily controlled have.

The general rice husk can be processed at a high temperature of 250 to 320 DEG C and a high pressure of 600 to 700 Kg / cm < 2 > for 5 seconds to 10 seconds in order to process the rice husk into swollen rice husks. If it exceeds the above range, the rice husk may excessively swell and burn, and if it is less than the above range, the swelling may not be performed properly.

The above-mentioned peat is a peat, a reed, a forage and other plants and plants, pine trees, birch trees, etc., fluid of the body is deposited on the basin in the presence of water in the presence of biochemical changes such as fungi, . Peat is broadly included in one type of coal but is generally distinct from coal. Unlike peat, which is buried underground like coal, lignin and cellulose, which are the main constituents of plants, are mainly decomposed in the surface (unlike the case where woody matter is produced by undergoing earth pressure and geothermal action Peatification). The peat of the present invention contains all kinds of peat, although there are differences in the kind of original plant material and degree of decomposition. Some examples of peat are tundra peat, grass charcoal, woody peat, and peat peat, especially sphagnum peat moss (Canadian peat, Bion Peat) have. Peat is adsorbing phenolic compounds, organic compounds and heavy metals. Preferable examples of the phenol include cresol, xylenol and phenol. Preferable organic compounds are polycyclic aromatic hydrocarbons (PAHs) such as naphthalene, fenaphthalene, pyrene and phenanthrene. Examples of the heavy metals include Cd, Zn, Pb , Ni, Cu or Co is preferable.

The Environe stone is preferably blended with 75 to 85% by weight of elvan and 15 to 25% by weight of clay. If the elvan stones are contained in an amount less than 75% by weight, there is a problem that the deodorizing function becomes insufficient. When the elvan stones are contained in an amount exceeding 85% by weight, there is a problem that the amount of white clay is less. If the amount of the clay is less than 15% by weight, there is a problem that the sterilizing function is insufficient. When the clay is contained in an amount exceeding 25% by weight, there is a problem that the elvan stone is less.

The elvan stone contains 45 kinds of minerals such as ferric oxide and calcium, magnesium, germanium, and selenium with anhydrous silicic acid and aluminum oxide as main components, and 30,000 porous neutral bodies per 1 cubic meter of elvan. It has proven its ability to remove heavy metals such as Pb and Cd, and has the ability to absorb odorous substances and to deodorize harmful substances. have.

The clay powders are earths of living life and the main constituents are kaolinite and halloysite. The clay has similar functions to the loess and has superior sterilizing power, adsorption power and porosity compared to other clay. The clay contains the main components 60.85 to 67.63% of SiO, 15.64 to 21.68% of AlO, 1.65 to 3.84% of FeO, 2.93 to 3.94% of MgO, 0.20 to 1.11% of CaO, 2.94 to 3.2% of NaO and 3% of the ignition loss .

In step 2, the complex microorganism is prepared by mixing 80% by weight of germanium peroxidase, 5% by weight of lactic acid bacteria, 5% by weight of Bacillus subtilis, 5% by weight of photosynthetic bacteria and 5% by weight of molasses, Lt; / RTI >

The germanium tripartite can be obtained by precipitating 5 to 15 parts by weight of baked clay in 100 parts by weight of natural germanium water for 24 to 36 hours and collecting clear water of the upper layer.

The baked clay can be obtained by heating the clay in powder form containing 5% moisture at 400 DEG C for 1 hour.

The natural germanium water has a molecular formula (HO-C-CH ₂ CH ₂ -Ge-O-Ge-CH ₂ -CH ₂ -C -OH) and can be a natural organic germanium water derived from ground water or hot spring water . In Korea, natural germanium water is produced in Paju, Okcheon and so on.

The lactic acid bacteria are one of the most beneficial microorganisms available to human beings and widely distributed in natural environments such as digestive tracts of mammals, various fermented foods and soils. The various organic acids (lactic acid, acetic acid, and benzoic acid) produced by these lactic acid bacteria can acidify the intestinal pH to neutralize the pathogenic bacteria, restore the intestinal flora balance to normal, and prevent diarrhea and enteritis. In addition, hydrogen peroxide produced by lactic acid bacteria kills pathogens by strong oxidative action and destruction of protein structure, and bacteriocin, an antibiotic produced by lactic acid bacteria, inhibits the growth of bacteria producing decay products. Therefore, lactic acid bacteria maintain the normal flora in the intestines and inhibit the microorganisms in the hospital. Especially, it prevents the enteritis and the hari, and has the effect of improving the animal growth rate and the feed efficiency. Examples of the lactic acid bacteria include Lactobacillus acidophilus, Lactobacillus plantarum, Lactobacillus casei, Lactobacillus lambosus, and the like.

The Bacillus subtilis is a kind of aerobic bacteria and has no toxicity and is a spore-forming bacterium widely distributed in nature such as dried grass, soil, sewage and air. The cell has a number of flagella around it in the shape of a short stick, making a large colonization of grayish white. It is characterized by high productivity of enzymes such as cellulase, amylase, protease, and xylanase, which are highly heat resistant and useful for livestock. .

The photosynthetic bacterium belongs to an inorganic nutrient (or an autotrophic bacterium) capable of synthesizing organic nutrients required for development from the inorganic matter of the environment. The bacterium uses the photovoltaic energy as an energy source and the CO ₂ as a carbon source. Under anaerobic and semi-anaerobic conditions, ATP is formed by photosynthesis in three balanced photosynthetic cyclic electron transport systems, and carbonic acid is fixed by using simple organic matter or hydrogen reduction power, and it is effective to remove odors and to suppress gas in farms and farms .

The molasses is a by-product of the sucrose production process. There is no particular limitation on the type of molasses used in the present invention, and any of molasses, such as sugar cane molasses and sugar beet molasses, Any of the edible molasses may be used.

1 to 10 parts by weight of a microbial activator or 1 to 10 parts by weight of a microbial catalyst may be added to 100 parts by weight of the complex microorganism.

The microorganism catalyst may be Vigor Accell. The Vigor Accell is a mixture of a protein with a low molecular weight, a surfactant and a stabilizer.

The mixture of the puffed rice hull, the peat and the envirron stone used in the step 3 and the step 5 may be the same as the mixture of the puffed rice hull, the peat, and the envirron stone used in the step 1.

It is preferable to use 45 to 55 parts by weight of a mixture of 100 parts by weight of the total animal carcass and the total of puffed rice hull, peat, and envirron stone. If less than 45 parts by weight of a mixture of total of pyrogen yellow, peat, and envirron stone is added to 100 parts by weight of total animal carcass, there is a problem that a lot of complex microorganisms must be used, and even when using more than 55 parts by weight, Can no longer be reduced.

The total animal carcass refers to the sum of the animal carcasses before the composite microorganisms of the first animal carcass layer 20 and the second animal carcass layer 20 are injected.

The mixture of the total spiked rice hulls, peat and envirron stone means a sum of a mixture of puffed rice hull, peat, and envirron stone laminated on the base layer 10, the intermediate layer 30 and the upper layer 50 do.

50% by weight of the total mixture of chopped rice husks, peat and envirronstones is laminated to the base layer 10, 36% by weight is laminated to the intermediate layer 30, and 14% by weight is laminated to the upper layer 50 .

In order to eliminate leachate and to induce rapid composting with an ideal combination of animal carcass and envirron stone, it is preferable to laminate in the same ratio as above to remove odor.

The complex microorganism used in step 4 may be the same as the complex microorganism used in step 2 above.

It is preferable that the animal carcass injected with the complex microorganism is layered in half on the first animal carcass layer 20 and the second animal carcass layer 20 in half.

The step 6 is a step of forming the cover layer 60 by laminating the soil on the upper layer 50. The soil is not particularly limited, and it can be laminated with a height of 1 to 2 m.

When the animal carcass is a pig, 200 L of the complex microorganism is used for 100 tons of the animal carcass, and when the animal carcass is chicken, 100 L of the complex microorganism is used for 20 tons of the animal carcass, It is preferable to use 200 L of the complex microorganism in 100 ton of animal carcass and 100 L of the complex microorganism in 20 ton of animal carcass when the animal carcass is duck.

Preferably, the complex microorganism is diluted to 1:20 by weight in clear water and then sprayed on the carcass as nanoparticles.

The animal carcass processing method may omit the step of forming the intermediate layer 30 (step 3) and the step of forming the second carcass layer 40 (step 4).

The animal carcass processing method can perform the buried soil digging work and the cleaning work, and after the vinyl is put on the floor, the base layer 10 is formed (step 1).

The animal carcass processing method may add a top vinyl covering step after the step of forming the upper layer 50 (step 5).

The method for treating animal carcasses according to the present invention can decompose the carcass of an animal slaughtered or killed by infectious disease at a high rate at a low cost by using swollen rice hull, peat, elvan, clay and complex microorganisms, Leachate does not occur and organic fertilizer can be advantageous.

Hereinafter, the constitution and effects of the present invention will be described in more detail through examples. These embodiments are only for illustrating the present invention, and the scope of the present invention is not limited by these embodiments.

 60 wt% of puffed rice husk, 30 wt% of peat, and 10 wt% of Envirron stone were mixed to prepare a mixture. The swollen rice husks were prepared by treating rice hulls at a high temperature of 320 DEG C and a high pressure of 600 kg / cm < 2 > for 5 seconds. The Environe stone was prepared by mixing 80% by weight of elvan and 20% by weight of clay. Mixed microorganisms were prepared by mixing 80% by weight of Germanium japonica, 5% by weight of lactic acid bacteria, 5% by weight of Bacillus subtilis, 5% by weight of photosynthetic bacteria and 5% by weight of molasses and incubating at 40 DEG C for 30 days. The germanium tripartite was obtained by precipitating 10 parts by weight of baked clay in 100 parts by weight of natural germanium water for 24 hours and taking clear water of the upper layer. The baked clay was obtained by heating the clay in powder form containing 5% moisture at 400 DEG C for 1 hour.

Except that 5 parts by weight of the microbial activator and 5 parts by weight of the microbial catalyst were added to 100 parts by weight of the complex microorganism in Example 1. The microorganism catalyst used was Vigor Accell.

[Comparative Example 1]

In Example 1, the remainder were made in the same way except that ordinary rice hulls were used in place of puffed rice hulls.

[Comparative Example 2]

In Example 1, the remainder were made in the same manner except that charcoal was used instead of peat.

[Comparative Example 3]

In Example 1, the remainder were made in the same manner except that the elvan stone was replaced by elvan stone.

[Comparative Example 4]

In Example 1, the remainder were made in the same manner except that purified water was used in place of germanium interceptor in the production of the complex microorganism.

[Experimental Example 1]

A transparent container was made of acrylic plate. 50 parts by weight of the mixture prepared in Example 1, Example 2, and Comparative Examples 1 to 4 and 0.2 part by weight of the complex microorganism were used in 100 parts by weight of porcine carcass. The complex microorganism was diluted to 1:20 by weight in clear water and sprayed with nanoparticles in pig carcass. The base layer 10 was formed by laminating 50 wt% of the mixture in the transparent container. The first animal carcass layer 20 was formed on the base layer 10 by laminating 50% by weight of porcine carcass injected with the complex microorganism. 36 wt% of the mixture was laminated on the first animal carcass layer 20 to form an intermediate layer 30. 50% by weight of porcine carcass in which the complex microorganism was injected was laminated on the intermediate layer 30 to form a second animal carcass layer 40. 14 wt% of the mixture was laminated on the second carcass layer 40 to form an upper layer 50. The cover layer 60 was formed by laminating the soil on the upper layer 50. The degree of decomposition of the organic matters in porcine carcass was measured with respect to Example 1, Example 2, and Comparative Example 1 to Comparative Example 4, and the results are shown in Table 1.

After 3 days After 6 days After 15 days After 30 days After 40 days Example 1 10% 20% 30% 50% 60% Example 2 20% 30% 40% 60% 80% Comparative Example 1 2% 4% 8% 15% 25% Comparative Example 2 2% 5% 10% 20% 30% Comparative Example 3 2% 3% 5% 13% 20% Comparative Example 4 2% 5% 10% 20% 30%

As shown in Table 1, it can be seen that the organic matters of the porcine carcass are decomposed very rapidly in Examples 1 and 2 as compared with Comparative Examples 1 to 4. [

[Experimental Example 2]

0.5 part by weight of the complex microorganism prepared in Example 1 was used in 100 parts by weight of chicken meat. The complex microorganism was diluted to 1:20 by weight in clear water, and then sprayed with nanoparticles in a chicken carcass. The puffed rice hull, embarrhython, and peat produced in Example 1 were laminated in a transparent container, and the chicken body to which the complex microorganism was sprayed was laminated, and peat, puffed rice husks and embarrhythone were laminated. 2 to 6 are photographs showing decomposition of the organic matter of the chicken carcass over time. Fig. 2 is a picture after three days. It can be confirmed that the chicken carcass starts composting. Fig. 3 is a photograph of the specimen after 6 days. It can be confirmed that the compost grows and the fungus grows. FIG. 4 is photographs after 15 days, indicating that the complex microbial action is active and small insects begin to appear. FIG. 5 is a photograph after 30 days. It can be seen that the chicken body is in a state of being inhaled and a considerable amount is reduced. FIG. 6 is photographs taken after 40 days. It can be confirmed that chicken bodies are significantly reduced and organic fertilizing is carried out.

[Experimental Example 3]

The chicken carcass was treated with the animal carcass treatment and the organic fertilizing method according to the present invention in Jeungcheon-ri, Hwangsan-eup, Gimje city, and the photograph is shown in Fig. 7 to Fig.

10: base layer 20: first animal carcass layer
30: intermediate layer 40: second animal carcass layer
50: upper layer 60: cover layer

Claims (6)

(Step 1) of forming a base layer by laminating a mixture of puffed rice hull, peat, and envirron stone;
(Step 2) of forming a first animal carcass layer by laminating an animal carcass onto which the complex microorganism is injected on the base layer;
Laminating a mixture of puffed rice hull, peat, and envirron stone on the first animal carcass layer to form an intermediate layer (step 3);
(Step 4) of forming a second animal carcass layer by laminating an animal carcass on which the complex microorganism is injected on the intermediate layer;
Laminating a mixture of puffed rice hull, peat, and envirron stone on the second animal carcass layer to form an upper layer (step 5); And
Laminating the soil on the upper layer to form a cover layer (step 6);
, ≪ / RTI &
Wherein the mixture comprises 50 to 70 wt% of puffed rice hull, 20 to 30 wt% of peat and 10 to 20 wt% of environe stone,
The swollen rice husk is produced by treating the rice husk at a temperature of 250 to 320 DEG C and a pressure of 600 to 700 kg /
The Environe stone is a mixture of 75 to 85% by weight of elvan and 15 to 25% by weight of clay,
Animal carcass treatment method.
delete The method according to claim 1,
The complex microorganism is prepared by mixing 80% by weight of germanium peroxidase, 5% by weight of lactic acid bacterium, 5% by weight of Bacillus subtilis, 5% by weight of photosynthetic bacteria and 5% by weight of molasses and incubating at 35 to 40 ° C for 20 to 30 days ,
Animal carcass treatment method.
The method of claim 3, wherein
The germanium jigui water is prepared by precipitating 5 to 15 parts by weight of roasted clay in 100 parts by weight of natural germanium water for 24 to 36 hours and collecting clear water of the upper layer,
The baked clay is obtained by heating powdery clay containing 5% moisture at 400 ° C for 1 hour,
Animal carcass treatment method.
The method according to claim 1,
45 to 55 parts by weight of a mixture of 100 parts by weight of total animal carcass and a mixture of total puffed rice hull, peat and environe stone,
50 wt% of the mixture is laminated to the base layer, 36 wt% is laminated to the intermediate layer, and 14 wt% is laminated to the upper layer,
Animal carcass treatment method.
The method according to claim 1,
When the animal carcass is a pig, 200 L of the complex microorganism is used for 100 tons of the animal carcass, and when the animal carcass is chicken, 100 L of the complex microorganism is used for 20 tons of the animal carcass, 200 L of the complex microorganism is used for 100 ton of animal carcass and 100 L of the complex microorganism is used for 20 ton of the animal carcass when the animal carcass is duck,
Animal carcass treatment method.

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