KR20160073049A - Manufacturing method of Microbes blended organic fertilizer - Google Patents

Abstract

According to an embodiment of the present invention, provided is a manufacturing method of a tablet-type organic fertilizer containing amino acid extracted from starfish. The manufacturing method comprises: a first step of obtaining an amino acid solution by pulverizing starfish and inoculating a fermentation strain to the resultant product; a second step of forming a mixture by mixing a byproduct of a vegetable-based expeller cake with compost; a third step of mixing the amino acid solution with the resultant product; a fourth step of manufacturing a half-finished product through a granular molding device; a fifth step of drying the half-finished product and separating a powder or a liquid; and a sixth step of producing compost of a finished product. The manufacturing method of a tablet-type organic fertilizer enhances effective value of recycling resources at the level of a natural virtuous circle, and provides efficiency to ecosystem protection for sustained development, recovery of contaminated soil, and growth duration of crops in general.

Description

Technical Field [0001] The present invention relates to a method for producing a purified organic fertilizer containing amino acids extracted from starfish,

The present invention relates to a method for producing a purified organic fertilizer containing an amino acid extracted from starfish, and more particularly, to a method for producing a purified organic fertilizer containing an amino acid solution By producing a natural microorganism specific to a byproduct or a non-fermented vegetable oil in a dormant state, thereby improving the value of the resource recycling utility in a natural virtuous cycle dimension, protecting the global ecosystem of sustainable development, and restoring contaminated soil And a method for producing purified organic fertilizer containing an amino acid extracted from a starfish that provides crop yield efficiency.

Conventionally, fertilizers have been used to help grow crops and to enable the cultivation of high quality crops. In recent years, excessive amounts of chemical fertilizers have been used for the purpose of mass production of crops. The chemical fertilizer is generally manufactured by constituting only essential components required according to the growth period of a cultivated crop, and excessive use of the chemical fertilizer causes acidification of the soil and devastates it.

In order to solve the problems of such chemical fertilizers and to provide better quality agricultural products to consumers, farmers who grow crops using organic fertilizers based on organic or by-products without using chemical fertilizers have been increasing recently, Consumers tend to prefer agricultural products grown by organic fertilizers rather than those grown by chemical fertilizers.

In other words, fertilizer is a generic term for fertilizing the land and promoting the growth of the vegetation. The fertilizer is used to maintain or enhance the productivity of the soil, to feed the soil or plant in order to grow the crop well, Even if it does not become a substance, it can improve the physical chemical properties of the soil and promote beneficial microorganisms. If the nutrients in a form that can not be used in plants are changed into a usable form in the soil, It is a substance that helps the growth of crops.

Higher plants absorb water and nutrients (mainly inorganic components) from their roots and grow by synthesizing the organic matter required for various growths by photosynthesis using solar energy. Native plants that exist in nature can grow well every year because they have little nutrient loss in the soil in their habitat because they naturally absorb and nourish nutrients in certain places. In farmland, when crops absorb nutrients from the soil and grow, the crops are transported elsewhere so that most nutrients can not be returned to the soil.

Therefore, unless the crops are deprived of the reduced nutrients properly, the yield of the crops will decrease gradually. Therefore, in order to maintain the productivity of the land or to harvest more amount, soil management should be done well and fertilized to fertilize.

Generally, organic fertilizer is a relative concept with inorganic fertilizer (chemical fertilizer), and it is general that organic fertilizer containing organic material as a main ingredient and by-product fertilizer containing byproduct as a main ingredient are generally included. Organic fertilizer requires an artificial composting And it is different from the by-product fertilizer that must be composted in that it does not. In addition, the organic fertilizer has the content of nitrogen, phosphoric acid, and potassium as the content of the fertilizer, but the byproduct fertilizer regulates the organic content and the quality of the content of the fertilizer.

Due to these differences, the raw materials of the organic fertilizer in the raw material phase can be classified into three types, namely, fish meal (including fish meal), bone meal, mung bean oil, soybean meal, soybean meal, soybean oil meal, cottonseed oil meal, The raw materials of the by-product fertilizer are selected from compost, fertilizer, fertilizer, grass, tree, and so on. (Soil), manure, manure residue, humus, amino acid fermentation Pusan fertilizer (liquid), dry matter, dried livestock waste (made from wastes generated from slaughtering livestock), composted rice husks and sawdust, soil microorganism preparation An active agent and the like are used.

Therefore, unless the crops are deprived of the reduced nutrients properly, the yield of the crops will decrease gradually. Therefore, in order to maintain the productivity of the land or to harvest more amount, soil management should be done well and fertilized to fertilize.

The material used for this purpose is called fertilizer. The Fertilizer Control Act (Law 5019) defines fertilizer as "a substance that nourishes plants or causes chemical changes in the soil to help plant growth, and a nutrient to plants." In this context, not only nutrient supply of plants but also soil improvement and leaf spreading agents are included in fertilizers. In some countries, plant growth regulators, enzymes or cell preparations are also included in fertilizers. There are many kinds of conditions that should be provided as fertilizer but the important thing is that it contains a certain amount of nutrients required for plant growth and that it does not contain harmful substances for plant growth and environment preservation, There will be no cost, low price and high efficiency, which will help farm management.

However, in order to rapidly develop the industry, to increase the demand for high quality agricultural products, and to improve the productivity, the demand for the processed chemical agent for convenience of utilization for pesticide and chemical fertilizer overuse has been rapidly expanded, Scions have been extensively applied to soils. Conventional farming methods concentrated on these rich chemical fertilizers and pesticides accelerate the accumulation of salts in the soil, resulting in lowering of intellect and acidification of the soil and inhibiting microorganisms and soil biosystems, which are the final decomposers, . In addition to the increased use of pesticides to control the pests and diseases that occur during the growth of plants, besides the increase of tolerance to the pesticides of the pathogens, the simplification and inhibition of the useful microorganisms in the soil caused the rapid increase of soil pathogens and harmful nematode It is a vicious cycle in which a large amount of pesticides is used, leading to bundles.

In addition, due to severe salt accumulation due to repeated use of rich organic matter and fertilizer, and antagonism between the nutrients due to this phenomenon, the continuous deficiency of essential nutrients and the deficiency of trace elements causes the disease endurance of crops to decrease , Poor harvests result in reduced yields, and quality and flavor deteriorate. Especially, in spite of continuous application of high-priced farming materials, much capital is invested more than necessary for the power of the plant which is not recovered. Therefore, from the economic point of view, There is a need.

Recently, as pollution problem of these crops has been seriously raised with environmental pollution problem, rather than using chemical fertilizer or pesticide, development of agricultural method using high quality organic fertilizer or compost is spreading, and many organic fertilizer is developed and used. Efforts to improve the compost fermentation method using have been continuously tried. Despite these efforts, the lack of understanding of the root cause of the decline in fertility and the lack of an alternative, the intensive use of organic fertilizers and composts, which are overused as an alternative to chemical fertilizers, , Another problem similar to chemistry is being deepened.

Most of the raw materials for compost are mainly sawdust, various kinds of pumice, food waste, herbal medicine sludge, fish meal or livestock and natural organic materials mixed with them. In order to produce such an organic fertilizer, it is necessary to ferment for a long period of time and an excessive amount of equipment is required, and water quality is contaminated by wastewater generated by production. Sawdust may cause damage to crops due to residual tannins and lignin when not being fermented, and organic acids may be generated in the process of corruption and damage to crop roots. In addition, the quality of the organic materials used is not uniform, and quality and safety of the agricultural materials can not be guaranteed. Therefore, when the immature fertilizer containing such an organic matter is used for a long period of time, it is converted to a fungal soil by roots accumulation , A deficiency due to the antagonistic action between the fungi and the fertilizer components, or a shortage of trace elements, thereby damaging the growth of the crops.

These natural fertilizers, composts, and chemical fertilizers contain little trace elements required for plant growth. Therefore, they are not sufficient to function as a perfect plant growth nutrient source. Too large amounts of organic matter . In particular, most of the organic materials used as the main raw materials are imported, processed and circulated in foreign countries, which is related to the weakening of the essential agricultural competitiveness.

Recently, compost or organic fertilizer is a process of producing fertilizer by using industrial by-products. It is a method of killing compost or germ using direct and indirect heat (usually, high temperature treatment) And most of them are simple process-oriented process management and simple commercialization.

The conventional by-product fertilizer and organic fertilizer as described above are limited to the simple recycling of waste resources or only to the satisfaction of process specifications, which is insufficient for the purpose of original fertilizer and has a low efficiency. As a result, secondary additives such as nutrients, , There is a problem that it depends on a microbial agent or a chemical synthetic substance.

In addition, the conventional fertilizer as described above has a considerable problem in environmental preservation or sustainable development simply depending on the chemical content or the organic matter content.

[Related Technical Literature]

1. A method of manufacturing a bio-capsule containing a mineral and a micro-organism containing a large amount of trace elements (Patent Application No. 10-2000-0023644)

2. Method for preparing reclaimed pellet for crop using germanium powder (Patent Application No. 10-2001-6540)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a method for fermenting starch, which comprises centrifuging a crushed starfish to inoculate a fermentation strain from an organic material, , It is possible to increase the value of resource recycling utility in the natural virtuous cycle and to protect the global ecosystem of sustainable development, and to restore the polluted soil and the crop growing period efficiency. And a method for producing a refined organic fertilizer.

In addition, the present invention provides an automatic meter which is equipped with a mixing and blending machine so as to exhibit ineffectiveness and natural microorganisms to be treated in a preliminary process, distributes the raw materials evenly, The present invention provides a method for producing a purified organic fertilizer containing amino acids extracted from a starfish which can maximize the survival rate of a microorganism in a dormant state in a hot air dryer.

Accordingly, the present invention solves the problem that the conventional fertilizer manufacturing method as described above can not easily constitute the facility and the efficiency of the purpose is lowered.

In order to accomplish the above object, the present invention provides a method for preparing a purified organic fertilizer containing amino acids extracted from a starfish according to an embodiment of the present invention, comprising the steps of: freezing a starfish and then using a hammer crusher, A starch organic substance and water are mixed and stirred to obtain an amino acid solution, followed by inoculation with a fermentation strain to obtain an amino acid solution through fermentation; A second step of mixing a by-product of non-fermented vegetable oils and non-fermented compost into a storage space with a raw material storage to form a mixture; A third step of centrifugally separating the starfish into a mixture of vegetable oilseed product byproducts and composts in the raw material storage section, inoculating the fermentation strain into the amino acid solution from the organic material, and mixing the amino acid solution through the fermentation process to form a mixture; A fourth step of preparing a semi-finished product having a predetermined shape by injecting a raw material through a granular molding machine; A fifth step of drying the semi-finished product manufactured by using the granular material at a proper temperature by using a drier, passing through a sorter to select a powder or a liquid phase; And a sixth step of producing the selected powdered or granular product through the meander device and the packing machine to produce the finished product fertilizer.

At this time, the method for producing the purified organic fertilizer containing amino acids extracted from starfish according to the present invention is characterized in that, in the second step, the fermented soybean meal, the seed oil meal, the cotton seed oil meal, the sesame oil, B, Cu, Mn, Zn, Mo, and Cl in a selected alkaline agent selected from among lime, lime, crushed stone, shell lime, and lime lime selected from among vegetable oils, Or a mixture of two or more kinds of trace elements is mixed, followed by composting, and the compost of the mixture is mixed with the raw material storage part.

The method for producing the purified organic fertilizer containing the amino acid extracted from starfish according to the present invention is characterized in that the vegetable oil is selected from among soybean meal, vegetable oil meal, cottonseed oil meal, sesame oil, peanut oil meal, And 90 to 99% by weight of a pure organic fertilizer raw material composed of any one or a mixture of two or more selected from the group consisting of lime, lime, shell fragments, A trace amount necessary for growth of a plant constituted by 0.1 to 9.9% by weight of an alkaline agent composed of two or more kinds of blends and composed of any one or two or more selected from among Fe, B, Cu, Mn, Zn, And 0.01 to 0.1% by weight of an element.

A method for producing a purified organic fertilizer containing amino acids extracted from starfish according to an embodiment of the present invention comprises centrifuging a crushed starfish to inoculate a fermentation strain from an organic material and then subjecting the amino acid solution as a by- It is possible to increase the value of resource recycling utility in the natural virtuous cycle by protecting the ecosystem of sustainable development, restoration of contaminated soil and growing of crops To provide efficiency.

In addition, according to another embodiment of the present invention, there is provided a method for producing a purified organic fertilizer containing amino acids extracted from starfish, comprising feeding nutrients contained in the soil and organic fertilizer to supply optimal nutrients to the soil, Environment can be created.

In addition, according to another embodiment of the present invention, a method for producing a purified organic fertilizer containing an amino acid extracted from a starfish, as a functional fertilizer, not only promotes the growth of crops but also maintains the fertilization effect, And adjusting the pH to adjust the dissolution rate of the fertilizer component and to adjust the dissolution rate, the composition is supplemented with an alkali agent such as burnt lime, slaked lime, shell powder, and gypsum lime to supplement the components required for plant growth .

In addition, the method of producing purified organic fertilizer containing amino acids extracted from starfish according to the present invention is characterized in that yeast actively activated by moisture after fertilization in soil is treated with nitrogen (N) from the atmosphere to supply nutrients to crop growth (Yeast) can produce only enough amount of NPK required for crops, and it is possible to produce nutrients necessary for plants. By providing a balanced supply systematically grow the crops to provide the effect of increasing productivity.

The present invention also provides a method for producing a purified organic fertilizer containing amino acids extracted from starfish, comprising the steps of: fixing a natural microorganism, nitrogen (N) in the air, and insoluble nitrogen (N) , Phosphate (P) and potassium (K) decomposing yeast are selected and the amino acid solution extracted from the starfish is mixed with each other to form an appropriate temperature, time and compounding ratio, And it can provide the efficiency of its sustainable development.

Brief Description of the Drawings Fig. 1 is a schematic diagram of an apparatus for producing a purified organic fertilizer containing an amino acid extracted from starfish in the present invention
FIG. 2 is a flow chart showing a manufacturing process of a purified organic fertilizer containing amino acids extracted from starfish according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a detailed block diagram of an apparatus for producing a purified organic fertilizer containing an amino acid extracted from a starfish according to the present invention. FIG. 1, an apparatus for manufacturing a refined organic fertilizer according to the present invention will be described in detail with reference to FIG. 1. Referring to FIG. 1, the apparatus for producing purified organic fertilizer according to the present invention includes a raw material input unit 100, a vegetable oil 110, A raw material mixer 510, a microbial raw material 511, a microbial secondary raw material 512, a raw material mixer 600, a granular molding machine 700, a drying separator (not shown), a raw material storage unit 400, a raw material meter 500, 800 and a weighing packing machine 900.

The raw material input unit 100 comprises a non-fermented vegetable oil by-product raw material 120 for producing a purified organic fertilizer containing the amino acid extracted from the starfish of the present invention and a compost through the composting process 121 And the by-product raw material 120 is supplied.

The foreign matter and the agglomerated raw materials are cleanly selected through the raw material sorter 200 for the purity and quality of the vegetable oil cake 110 and the by-product raw material 120 of the compost.

The vegetable oil cake 110 to be fed into the raw material input part 100 may be any one selected from the group consisting of soybean meal, seed oil meal, cottonseed oil meal, sesame oil, peanut oil, And 90 to 99% by weight of the pure organic fertilizer raw material, and the by-product raw material 120 to be added through the composting process is composed of any one kind or a mixture of two or more selected from quicklime, slaked lime, 0.1 to 9.9% by weight of an alkali agent, and 0.01 to 0.1% by weight of a trace element necessary for growth of a plant constituted by mixing one or two or more selected from among Fe, B, Cu, Mn, Zn, Mo and Cl.

In addition, the microorganism raw material to be introduced into the raw material compounder 510 to be described below is composed of 1 to 10% by weight of an amino acid solution through fermentation by inoculating starfish into a fermentation strain in an amino acid solution from an organic substance by centrifugation.

If the foreign matter and the lumpy raw material are selected through the raw material sorter 200, the larger particles are pulverized to a predetermined size through the raw material crusher 300 and put into the raw material storage unit 400.

Thereafter, the starter is centrifuged in the raw material blender 510 to inoculate the fermentation strain into the amino acid solution from the organic material, and the microorganism raw material as the amino acid solution is fed through the fermentation process and is metered uniformly through the raw material meter 500, 400) to form a mixture.

The mixed material in the raw material storage part 400 is fed through the granular molding machine 700 to produce a semi-finished product having a predetermined shape, and the granular product, which is formed into a granular form, is dried by passing through a drying separator 800, Or the liquid phase is selected and an organic fertilizer containing powdery or granular microorganisms is produced through the metering device or the weighing packing machine 900. [

The present invention relates to a method for efficiently feeding a microorganism and a fertilizer system using the feedstock having a proper fertilizing effect. In order to feed a raw material into the storage space 100, And a hopper for a compost 120 based on an axial division based on the composting process 121. The separator 200 and the crusher 300 are formed for the purity and quality of the raw material and the elevator and the raw material And forms a storage unit 400. Here, in order to produce a uniform product, the automatic meter 500 is provided to comply with the mixing ratio of the raw materials in the storage tank 400, and a small amount of the microbial yeast and the additive material are pre-classified by the blender 510, .

Also, the mixer 600 is provided to distribute all the raw materials metered by the mixing ratio to be finally evenly distributed by using the meter 500, and it is possible to maintain the convenience and quality of the mixed raw materials, The granular molding machine 700 can be manufactured in a predetermined shape by inputting raw materials.

The semi-finished product manufactured by granulation has a dryer 800 for maintaining or lowering the temperature and moisture. The selected product includes an automatic in-situ device and a packing machine 900 to perform a quality inspection (QAQC) It is the overall configuration to deliver the product only to the accepted product.

According to the above-described constitution, when the starter is centrifuged and the fermentation strain is inoculated from the organic substance into the amino acid solution and the formation process of the amino acid solution is observed through the fermentation process, the starter is crushed as the microorganism raw material In order to extract the organic and inorganic substances contained in the tissue, the starch is crushed and the shredded tissue is removed. To decompose the protein portion distributed in each organic substance to extract the amino acid from the protein nitrogenous substance among the organic constitutional components, the water is mixed with the starfish lysate and centrifuged to separate the amino acid from the starfish tissue containing the mucus component Under It can be extracted.

In order to extract organic or inorganic material from the hard and tough tissue of the starfish, the starfish is frozen and then crushed using a hammer crusher so that the crushed starfish fragments are 80 mesh.

Then, to extract amino acids from the crushed starfish organics, centrifuge at 1500-2000 rpm for 30 minutes and take the supernatant. Since mussel components are contained in the nature of starfish tissues, 25 kg of crushed starfish organics and 5 L of water are mixed, stirred for 30 minutes and then centrifuged. Further, the supernatant obtained by centrifugation is heated at 100 DEG C for 30 minutes to destroy the insoluble protein, and the amino acid is released therefrom. The heating may also kill the spoilage bacteria present in the starfish tissue.

In order to provide a plant nutrient containing amino nitrogen nitrogen extracted from this incompatibility, the starfish is crushed first, and the amino acid obtained by centrifuging the crushed product And amino nitrogen nitrogen extracted by fermenting the solution with a microorganism. The above-mentioned extraction method of nitrogenous amino acid is applied to fish species other than starfish and benthic marine animal organic material.

A fermentation strain is inoculated into the amino acid solution extracted by heating to obtain an organic amino acid solution through fermentation. The organic acid is produced through a fermentation strain of the genus Lactobacillus of the present invention.

More specifically, the amino acid solution centrifuged and extracted is cooled, put in an incubator, and incubated at 35 ° C. The molasses and the cultured fermentation strains are mixed and fermented for 2 to 3 days with stirring. In this case, the carboxylic acid produced by the fermentation broth during the fermentation may bind to an inorganic amino group to form a sufficient acidity and a hydrogen compound, thereby enhancing the growth of the crop. Through this fermentation process, the amino acid nitrogen can be stabilized.

An amino acid is produced from the starfish organic material by the above procedure and used as a raw material of the functional fertilizer.

The amino acid solution produced from the starfish produced by the above procedure is mixed with the vegetable oil cake 110 and the by-product raw material 120, and the refined organic fertilizer is mixed with the soybean oil, the soy sauce oil, the cottonseed oil cake, the peanut oil cake, And 1 to 10% by weight of amino acids generated from starfish organic matter, to the pure organic fertilizer raw material composed of any one kind or a mixture of two or more selected from the group consisting of starch, N is 3.51% by weight, P is 24.21% by weight, K is 3.64% by weight, Ca is 0.78% by weight, Mg is 10.82% by weight, and the composition contains functional organic fertilizer.

The plant nutrient containing the amino acid nitrogen nitrogen produced as described above can be prepared in the form of solid, gel, powder or liquid, and it is preferably composed of liquid.

2, which is a schematic view of the process for producing the purified organic fertilizer containing amino acids extracted from starfish, first, the by-product of the non-fermented vegetable oil 110 and the compost by- The foreign matter and the lumpy raw materials are selected through the raw material sorting machine 200 and pulverized to a predetermined size through the raw material crusher 300 (see step S10).

By-products of the oil cake 110 crushed to a predetermined size and the compost by-product raw material 120 are put into the raw material storage portion and mixed therein (see step S20). The method for producing the purified organic fertilizer containing the amino acid extracted from the starfish according to the present invention comprises 10% by weight of the microorganism and 90% by weight of the vegetable oil of the first step or 10% And 90% by weight of the compost.

Thereafter, a starfish, which is a microbial yeast, is centrifuged in the raw material blender 510 to inoculate a fermentation strain into the amino acid solution from the organic material. The microbial raw material, which is an amino acid solution, is fed through the fermentation process and is metered uniformly through the raw material meter 500, And is mixed with the storage part 400 to form a mixture (refer to step S30)

In this case, the 1% by weight of the microbial yeast and the 10% by weight of the whole microbial yeast are uniformly mixed. The microbial yeast is a yeast having nitrogen fixed in the atmosphere to convert N ₂ into soluble nitrogen (N) Phosphate-decomposing yeast that converts phosphoric acid to soluble phosphoric acid (P) and potassium-decomposing yeast that converts insoluble potassium in soil or in solid to soluble potassium (K).

The mixed material in the raw material storage part 400 is mixed with the raw material through the granular molding machine 700 to produce a semi-finished product having a predetermined shape (refer to step S40). That is, Dried at a suitable temperature using a dryer, and passed through a separator to select a powder or a liquid.

The semifinished product produced by the granulation is passed through a dry separator 800 to be dried and a powder or liquid phase is selected (refer to step S50), and the semifinished product containing the amino acid extracted from powdery or granular starfish through a weighing device or weighing packing machine 900 The finished product of the refined organic fertilizer is produced (Step S60)

The purified organic fertilizer containing the amino acid extracted from the starfish of the present invention may further contain conventional carriers, diluents, etc. for application to plants or seeds of plants. Depending on the application, conventional plant nutrients or herbicides, fungicides and fungicide insecticides and nematocides can also be added.

Plants to which the organic fertilizer containing the amino acid extracted from the starfish of the present invention is applied include vegetable such as spinach, Chinese cabbage, cucumber, eggplant, beef steak, cabbage, leek, leek and onion, radish, sweet potato, Potatoes, grains such as rice, wheat and corn, industrial crops such as soybeans, beans such as adzuki bean and peanuts, sugarcane and hemp, grapes, tangerines, persimmons, apples, tomatoes, melons, , Fruits such as peaches, bananas, pineapples and coffee, ornamental plants such as rubber trees, phoenix and benjamin shrubs, and flowers such as chrysanthemums, kaneishons, roses, lanterns, lanterns and tulips It is not.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: Raw material input portion 110: Vegetable oil cake
120: By-product raw materials
200: Raw material separator 300: Raw material crusher
400: raw material storage unit 500: raw material meter
510: Raw material blender 600: Raw material mixer
700: granular molding machine 800: dry separator
900: Weighing and packing machine

Claims (3)

The starfish was frozen, and the starfish fragments were pulverized to 80 mesh using a hammer crusher. The crushed starfish organic material and water were mixed, stirred, and centrifuged to obtain an amino acid solution. To obtain an amino acid solution;
A second step of mixing a by-product of non-fermented vegetable oils and non-fermented compost into a storage space with a raw material storage to form a mixture;
A third step of centrifugally separating the starfish into a mixture of vegetable oilseed product byproducts and composts in the raw material storage section, inoculating the fermentation strain into the amino acid solution from the organic material, and mixing the amino acid solution through the fermentation process to form a mixture;
A fourth step of preparing a semi-finished product having a predetermined shape by injecting a raw material through a granular molding machine;
A fifth step of drying the semi-finished product manufactured by using the granular material at a proper temperature by using a drier, passing through a sorter to select a powder or a liquid phase; And
A method for producing purified organic fertilizer containing amino acids extracted from a starfish, comprising the steps of: (a) producing a finished powder or granular product through a meander device and a packing machine;
The method according to claim 1,
In the second step
Selected from vegetable oils selected from the group consisting of unfermented soybean meal, non-fermented soybean meal, seed oil, cottonseed oil, sesame oil, peanut oil, The trace elements are mixed with any one or more selected from among Fe, B, Cu, Mn, Zn, Mo, and Cl in an alkaline agent, and the mixture is composted and mixed with the raw material storage portion Process for producing purified organic fertilizer containing amino acid extracted from starfish
3. The method of claim 2,
The vegetable oil cake comprises 90 to 99% by weight of a pure organic fertilizer raw material composed of any one or a mixture of two or more selected from soybean meal, soybean oil meal, cottonseed oil meal, sesame oil, peanut oil, And,
The by-product raw material introduced through the composting process is composed of 0.1 to 9.9% by weight of an alkaline agent composed of at least one selected from quicklime, slaked lime, shell fragments, and gypsum lime,
And 0.01 to 0.1% by weight of a trace element necessary for growth of plants constituted by mixing one or more selected from Fe, B, Cu, Mn, Zn, Mo and Cl. Method for producing purified organic fertilizer containing amino acid

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