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Biological organic fertilizer produced by using erythromycin bacterium residues and preparation method of biological organic fertilizer

A technology of erythromycin slag and bio-organic fertilizer, which is applied to the preparation of organic fertilizers, the treatment of bio-organic parts, organic fertilizers, etc., can solve the problems of poor quick-acting properties, low nutrient content, and high production costs, and achieve good quick-acting properties, The effect of high nutrient content and low production cost

Inactive Publication Date: 2016-09-07
潘峰
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to overcome the shortcoming of prior art, provide a kind of bio-organic fertilizer that utilizes erythromycin slag to produce and preparation method thereof, to solve the shortcoming of existing bio-organic fertilizer low nutrient content, quick-acting property and high production cost

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Example 1: Degradation process of slag of erythromycin, 300kg of erythromycin slag coded bar and evenly sprayed with electrolytic water acid solution to adjust the pH value to 5, then tossed and mixed well, 50kg of sawdust was inserted into 1.8kg of rhodotorula and turned Toss and mix well, mix the treated sawdust and erythromycin slag, toss and mix well, and ferment the strips for more than 48 hours to degrade the antibiotics and set aside. When the bar is fermented, when the temperature of the material rises to the limit value of 60°C, it needs to be turned over once to cool down and aerate.

[0026] During the fermenting process, 400kg of sheep manure is coded and evenly added with 100kg of bone meal, 1kg of high-temperature fermented bacteria and fermented erythromycin residue, sprinkled with water to adjust the humidity of the material to 55%, the material is turned over and mixed well, and the code is fermented once 15 days. Once the temperature of the fermented ...

Embodiment 2

[0028] Example 2: Degradation process of fungus slag, 300kg erythromycin slag code bar and evenly sprayed with electrolytic water acid solution to adjust the pH value of the material to 5.5, then turn it over and mix well, insert 50kg sawdust into 1.8kg Rhodotorula spp. Toss and mix well. Mix the treated sawdust and erythromycin residue, toss and mix well, and ferment the strips for more than 48 hours to degrade the antibiotics, and set aside. When the bar is fermented, when the temperature of the material rises to the limit value of 65°C, it needs to be turned over once to cool down and aerate.

[0029] During the fermenting process, 400kg of sheep manure is coded and evenly added with 100kg of bone meal, 1kg of high-temperature fermented bacteria and fermented erythromycin residue, sprinkled with water to adjust the humidity of the material to 55%, the material is turned over and mixed well, and the code is fermented once 15 days. Once the temperature of the fermented mate...

Embodiment 3

[0031] Example 3: Degradation process of slag of erythromycin, 300kg of erythromycin slag code strips were evenly sprayed with electrolytic water acid solution to adjust the pH value of the material to 5, then tossed and mixed well, 50kg of sawdust was inserted into 1.8kg of Rhodotorula spp. Toss and mix well. Mix the treated sawdust and erythromycin residue, toss and mix well, and ferment the strips for more than 48 hours to degrade the antibiotics, and set aside. When the bar is fermented, when the temperature of the material rises to the limit value of 60°C, it needs to be turned over once to cool down and aerate.

[0032] During the fermenting process, 400kg of sheep manure is coded and evenly added with 100kg of bone meal, 1kg of high-temperature fermented bacteria and fermented erythromycin residue, sprinkled with water to adjust the humidity of the material to 55%, the material is turned over and mixed well, and the code is fermented once 15 days. Once the temperature...

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PUM

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Abstract

The invention discloses a biological organic fertilizer produced by using erythromycin bacterium residues and a preparation method of the biological organic fertilizer. The biological organic fertilizer is prepared from the following raw materials in parts by weight: 37-43 parts of sheep manure, 27-33 parts of the erythromycin bacterium residues, 7-13 parts of bone meal, 12-18 parts of attapulgite powder, 2-8 parts of sawdust, 0.04-0.08 part of polyglutamic acid, and 0.35-0.41 part of microbial bacteria, wherein the microbial bacteria comprise rhodotorula glutinis, high temperature fermentation bacteria and functional bacteria in a ratio of 1.8:1:1. The biological organic fertilizer is prepared by the method comprising the following processes: (1) a process of degrading the bacterium residues; (2) a process of performing fermentation to prepare a fertilizer; and (3) a process of performing crushing and screening. According to the biological organic fertilizer disclosed by the invention, abundant nutrients are obtained from the bacterium residues, and the polyglutamic acid and the bone meal are added to improve the nutrient content, so that the nutrient content is high; the polyglutamic acid and protein can be quickly absorbed and utilized by crops under the action of the functional bacteria, so that the fast-acting property is good; and the abundant nutrients are obtained from waste bacterium residues, a small amount of the bone meal and the polyglutamic acid are added to improve the nutrient content, and a high-cost chemical fertilizer is not needed to be added, so that the production cost is low.

Description

technical field [0001] The invention specifically relates to a bio-organic fertilizer produced by using erythromycin residue and a preparation method thereof. Background technique [0002] In recent years, domestic bio-organic fertilizers have developed vigorously, and bio-organic fertilizers using various materials as carriers emerge in endlessly. The traditional method is to use livestock manure or straw as a carrier to fully ferment and decompose, inoculate functional beneficial bacteria and add nutrient-containing substances to become bio-organic fertilizers, which provide nutrients for crops after being applied to the soil, and play a role in improving the soil. [0003] The use of livestock manure and straw has the advantage of wide and easy access to raw materials, but the nutrient content of the bio-organic fertilizer produced is low. Although it has long-term effects on soil improvement, it has poor quick-acting properties due to the need for decomposition and conve...

Claims

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Application Information

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IPC IPC(8): C05G3/00C05F17/00
CPCC05C11/00C05G3/00C05F17/50C05D9/00C05F1/005C05F3/00C05F5/008C05F11/08Y02W30/40
Inventor 潘峰
Owner 潘峰
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