KR20200005890A - Method for manufacturing liquefied fertilizer using butchery blood - Google Patents

Abstract

The present invention relates to a method for manufacturing an amino acid liquid fertilizer and an organic fertilizer using butchery blood and, more specifically, to an organic fertilizer, in which plasma protein is fermented with a natural enzyme to minimize destroy of amino acid and high concentration of amino acid and soluble iron component are plentifully contained. According to the present invention, the method comprises: a step of inserting solidified butchery blood into a pulverizer to finely pulverize the same; a step of inserting the finely pulverized butchery blood and an enzyme in a fermentation tank; a step of mixing alkaline water, quicklime water, or water brewing gingko leaf, Phytolacca esculenta Vanhoutte, cinnamon, Sophora flavescens AIT, Artemisia capillaris Thunberg, other saps, to increase fermentation effect in the blood; a step of maintaining pH of the mixture within a range of 8.0 to 9.5 and heating the fermentation tank; and a step of inserting 0.5 to 1.0 wt% of fermentation enzyme with respect to the mixture when the temperature of the mixture reaches 45°C. When the mixture is stirred while supplying a predetermined amount of oxygen into the fermentation tank, fat included in the blood is separated and protein of the fermented butchery blood is converted into amino acid.

Description

Method for manufacturing liquid fertilizer using slaughter blood {Method for manufacturing liquefied fertilizer using butchery blood}

The present invention relates to a method for producing an amino acid liquid fertilizer using the slaughter blood generated when slaughtering livestock.

In general, slaughterhouses that slaughter livestock generate large amounts of waste, such as slaughtered blood, blood, manure, and sewage. Here, some of the bleeding (sun) is used for food, but most of it is treated as waste, but the high COD and BOD in the blood, there is a limit to the wastewater treatment method. Therefore, a large amount of blood accumulated in slaughterhouses is boiled and disposed of as landfill or incineration. Recently, attempts have been made to make liquid fertilizers instead of landfills. Reference may be made to Republic of Korea Patent Publication No. 10-1100850. However, the existing fertilizer manufacturing method is only fermentation to the slaughtered blood, bacteria grow and decay in the liquid fertilizer thus produced, making it difficult for farmers to use due to bad smell and fat components in the blood. Inhibit.

An object of the present invention does not return to the blood before coagulation even when the coagulated slaughtered blood is ground into fine particles. It promotes fermentation and uniformity of microbial slaughtered blood, and prevents bacteria from multiplying in fermented liquid fertilizer to prevent the liquid fertilizer from rot and becoming unsuitable for use. It is to provide a method for producing amino acid liquid fertilizer using slaughter blood to prevent side effects of the oxidation of amino acids due to the addition of natural preservatives such as citric acid, sorbic acid, stevia to prevent corruption.

Liquid fertilizer manufacturing method using the slaughtered blood according to an embodiment of the present invention for realizing the above object, pulverized coagulated slaughtered blood into nanoparticles and 5 to 50% by weight of the slaughtered blood is added to the slaughtered blood When the pH of the alkaline water mixture is in the range of 8.0 to 9.5 and the temperature of the mixture rises to 45 ° C, proteolytic enzymes are added and the temperature of the mixture of slaughter blood and alkaline water and enzyme is maintained within the range of 50 ° C to 65 ° C. In order to increase the efficiency of fermentation is a method of preparing an amino acid liquid fertilizer after agitation with a stirrer for 6 to 9 hours.

According to the liquid fertilizer manufacturing method using the slaughtered blood according to the present invention configured as described above can breed bacteria in the liquid fertilizer prepared from the slaughtered blood to prevent the liquid fertilizer from rot and smell, maximizing amino acid content It is.

In addition, the alkaline water is added to increase the fermentation and the pH of the mixture is added to the enzyme in the range of 8.0-9.5 by stirring and maintaining the stability of the enzyme to make the optimum conditions in decomposing the protein contained in the blood. In addition, plants absorb weaker alkalis faster than acids or neutrals. As enzymes, shabinase is used. Shavinase can increase fermentation efficiency and reduce fermentation time by using less than other conventional proteases. This is useful in increasing the operating efficiency of the fertilizer manufacturing equipment, producing an amino acid liquid fertilizer with the maximum content of amino acids.

1 is a flow chart for explaining a liquid fertilizer manufacturing method using the slaughter blood according to an embodiment of the present invention.

A liquid fertilizer manufacturing method using the slaughter blood according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the present specification, different embodiments are given the same reference numerals for the same similar components, and description thereof is replaced with the first description. 1 is a flow chart for explaining a liquid fertilizer manufacturing method using the slaughtered blood according to an embodiment of the present invention.

Referring to this figure, slaughter blood is prepared as a raw material for producing a liquid fertilizer (S1). Slaughter blood is a by-product of slaughter of cattle, pigs, and poultry at slaughterhouses. These slaughtered blood is collected, refrigerated storage (S2) and pasteurized at minus 1 to minus 2 ℃ or pasteurized and lyophilized at 130 ℃.

Slaughtered or pasteurized and lyophilized slaughtered blood is ground (S3), and the fine particles have tendons, which are filtered (S3) and then ground again into nanoparticles (S4). Slaughter blood is smoothed fermentation in the next step (S5) and has a high content of free amino acids.

In order to transfer the slaughtered blood to the fermentation tank (S5) and increase fermentation efficiency and fermentation efficiency, 5 to 50% by weight alkaline water or quicklime of slaughtered blood and ginkgo biloba, berry, cinnamon, red ginseng, and ginseng (other sap) Mix one or more and heat the mixture in the fermentation tank to a temperature of 50 ℃ to 60 ℃ while stirring the pH of the mixture in the range 8.0 ~ 9.5. Mixing at least one of alkaline water or quicklime with water, such as ginkgo biloba, gingko, cinnamon, red ginseng, and wormwood (other sap), and raising the pH of the mixture to a range of 8.0 to 9.5 is necessary to break down proteins and convert them into amino acids. Very important. It improves fermentation efficiency, separates fat components from blood, and improves absorption by plants when finished. When the temperature of the mixture is more than 45 ℃ fermentation enzyme is added and the fermentation is stirred for 6 to 9 hours while supplying a certain amount of oxygen for the efficiency of fermentation and the activity of the enzyme. As the enzyme, Savinase is used.

The savinase has a high titer and is excellent in fermenting slaughtered blood. Specifically, the enzyme may have a pH of 6.60 at 25 ° C., a viscosity of 20.1 CPS, and a viable count of 100 / G. The enzyme may be added in an amount in the range of 0.5 to 1.0% by weight based on the weight of the finely slaughtered blood.

If the amount of the enzyme is less than 0.5% by weight, there is a problem that the fermentation time for the slaughtered blood is long. In addition, even if the amount of the enzyme exceeds 1.0% by weight, the above fermentation efficiency and fermentation rate does not significantly increase. Conventional methods have introduced 0.2 ~ 0.5% by weight of enzyme, fermented for 4 ~ 6 hours, and added natural preservatives to prevent decay of the finished product, but this does not completely separate the side effects of oxidizing amino acids and fat components in the blood. Confirmed through the test.

In fermentation with savinase, the mixture of slaughter blood and enzyme contained in the fermentation tank should be maintained in the range of 45 ° C to 65 ° C.

If the temperature of the mixture is less than 40 ℃ normal fermentation is difficult, if the temperature exceeds 65 ℃ fermentation time can be shortened, but the microorganisms die due to the high temperature, fermentation effect is reduced, so the protein is not degraded, so the conversion rate of the 18 species Essential amanoic acid content becomes low. The present inventors have found that, when used as an enzyme of savinase, maintaining the temperature of the mixture within the range of 50 ° C to 56 ° C is useful for enhancing fermentation performance and converting to 18 essential amano acids.

In order to increase the fermentation efficiency, the pH of the mixture is maintained at 8.0 ~ 9.5, but the highest stability of enzyme (sabinase) is maintained at pH9.

Alkaline water or quicklime and mixed with at least one water, such as ginkgo biloba, gingko, cinnamon, red ginseng, ginko wormwood (other sap), and the pH to 8.0 ~ 9.5 to increase the fermentation time more than 6 hours is the reason for the efficiency of fermentation It has high sugar content in the blood, so if you fertilize it on roadside crops, it prevents swelling of the bedbug and removes the fat component because the fat component in the blood is separated. The quality of fat-containing and non-fatty fertilizers is very different. When fertilizers containing fats are fertilized, fats may inhibit the absorption of amino acids of plants and may be buried in crops, resulting in a lower product value. However, blood fertilizers with fats are better absorbed by plants and improve the value of crops. Let's do it.

In order to maintain the temperature of the fermentation tank, the body of the fermentation tank is made of a triple tank to supply hot water between the medium and the endothelial to supply heat to the fermentation tank and a boiler as a heat supply method.

In order to effectively carry out the fermentation, it is also important to slowly heat the fermentation tank so that the temperature of the slaughtered blood and alkaline water mixture becomes 45 ° C. or more for 40 minutes or more.

Suddenly raising the temperature causes a change in the blood.

In addition, when the chemical fertilizer is added to the finished product (S6) it becomes a mixed organic fertilizer.

Solvinic acid, stevia, etc. are added to the fermented liquid fertilizer and sterilized. The sterilization treatment is intended to prevent and prevent decay because the liquid fertilizer is decayed while the remaining ingredients are fermented by the living or unfermented bacteria.

However, in the fermentation process of the liquid fertilizer, if the addition of natural preservatives such as citric acid, sorbic acid, stevia, etc., the fermentation efficiency is low, and the amino acid content is lowered by oxidizing the amino acid was confirmed through experiments

Claims (3)

Bacteria in the slaughtered blood are sterilized by low temperature, high temperature or freeze-drying methods, and the coagulated slaughtered blood is pulverized into nanoparticles and transferred to a triple fermentation tank to give 5 to 50% by weight of alkaline water in the slaughtered blood to promote fermentation of the slaughtered blood. Alternatively, the mixture of quicklime and ginkgo biloba, janggok, cinnamon, red ginseng, ginko wormwood (other sap), and the like can be mixed, and the pH of the mixture is maintained at a level of 8.0 to 9.5, and the fermentation tank is heated. When the temperature reaches 45 ° C., 0.5 to 1.0% by weight of an enzyme (sabinase, etc.) is added. And maintaining a temperature of the mixture at 45 ° C. to 65 ° C., supplying a certain amount of oxygen, and fermenting about 6 hours to 9 hours to obtain an amino acid liquid fertilizer. The method of claim 1
The blood is ground into nanoparticles and 5 to 50% by weight of alkaline water or quicklime of slaughtered blood and ginkgo biloba, berry, cinnamon, red ginseng and ginko (other sap). Mix at least one of the prepared water, and maintain the pH of the mixture at a legal level of 8.0 to 9.5, inject 0.5 to 1.0% by weight of enzyme (sabinase) from the mixture, and maintain the mixture at a temperature of 45 ℃ to 65 ℃ The fermentation of about 6 hours to 9 hours while supplying a certain amount of oxygen;
A method for producing a protein comprising increasing the conversion rate of protein in the blood to free amino acids and separating and removing the fat in the blood to increase the absorption of amino acids in the plant and freeze drying the liquid amino acid fertilizer. 10 to 80% by weight of alkaline water or quicklime water and ginkgo biloba leaves, cinnamon, red ginseng, ginko wormwood (other sap) and the like are mixed with the amino acid liquid fertilizer, and 7-10% by weight of the urea of the mixture and the mixture of 7-12% by weight of ferric chloride and 7-10% by weight of ammonium phosphate monobasic must be added, 1-3% by weight of boric acid in the mixture and 1-2% by weight of magnesium sulfate in the mixture and the 2-3% by weight of manganese sulphur and 2-4% by weight of zinc sulfate of the mixture and 1-3% by weight of iron EDTA and 2-3% by weight of copper sulfate of the mixture and 2 of the mixture Mixed organic liquid fertilizer manufacturing method characterized in that the addition of at least two when adding ~ 3.5% by weight of calcium chloride

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