Low-carbon composite culture material for edible fungi

A technology for edible fungi and culturing materials, applied in the application, fertilizer mixture, superphosphate and other directions, can solve the problems of reduced economic benefits for producers and high prices of raw materials for production, and achieves reduction in the absorption of edible fungi, good dispersibility, cost saving effect

Inactive Publication Date: 2020-07-14
安徽每日六八生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to provide a low-carbon compound culture material for edible fungi, aiming at the problems of high raw material prices for edible fungi and reduced economic benefits of producers in the current market

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] A low-carbon compound compost for edible fungi is characterized in that it is made of the following raw materials in parts by weight: 30 g of edible fungus residue, 26 g of furfural residue, 8 g of rice bran, 7 g of peanut shells, 6 g of rapeseed shells, and Core debris 5g, plant residual leaves 4g, animal manure 11g, EM bacterial agent 0.2g, vinegar grains 0.3g, improver 1.1g, calcium carbonate 1.2g, superphosphate 1g, limestone 1g;

[0027] The low-carbon composite culture material for edible fungi is made by the following steps:

[0028] The first step is to dry the collected furfural residue, rice bran, peanut shells, rapeseed shells, corn cob residues, and plant residues at a high temperature of 65°C until the moisture is less than 25%, and then send them into twin-screw extrusion Carry out extrusion and puffing treatment in the puffing machine to obtain puffed material;

[0029] The second step is to compress the collected animal manure through mechanical equipme...

Embodiment 2

[0036] A low-carbon composite compost for edible fungi, characterized in that it is made of the following raw materials in parts by weight: 35 g of edible fungus residue, 31 g of furfural residue, 9 g of rice bran, 6 g of peanut shells, 8 g of rapeseed shells, and Core debris 7g, plant residual leaves 6g, animal manure 12g, EM bacterial agent 0.3g, vinegar grains 0.4g, improver 1.2g, calcium carbonate 1.4g, superphosphate 1.5g, limestone 1.3g;

[0037] The low-carbon composite culture material for edible fungi is made by the following steps:

[0038] The first step is to dry the collected furfural residues, rice bran, peanut shells, rapeseed shells, corncob residues, and plant residues at a high temperature of 68°C until the moisture is less than 25%, and then send them into twin-screw extrusion Carry out extrusion and puffing treatment in the puffing machine to obtain puffed material;

[0039] The second step is to compress the collected animal manure through mechanical equi...

Embodiment 3

[0046] A low-carbon compound compost for edible fungi is characterized in that it is made of the following raw materials in parts by weight: 40 g of edible fungus residue, 30 g of furfural residue, 9 g of rice bran, 6 g of peanut shells, 7 g of rapeseed shells, and Core debris 8g, plant residual leaves 6g, animal feces 17g, EM bacterial agent 0.4g, vinegar grains 0.5g, improver 1.4g, calcium carbonate 1.2g, superphosphate 1.8g, limestone 1.6g;

[0047] The low-carbon composite culture material for edible fungi is made by the following steps:

[0048] The first step is to dry the collected furfural residues, rice bran, peanut shells, rapeseed shells, corncob residues, and plant residues at a high temperature of 70°C until the moisture is less than 25%, and then send them into twin-screw extrusion Carry out extrusion and puffing treatment in the puffing machine to obtain puffed material;

[0049] The second step is to compress the collected animal manure through mechanical equi...

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PUM

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Abstract

The invention discloses a low-carbon composite culture material for edible fungi. The low-carbon composite culture material is prepared from the following raw materials in parts by weight: 20-40 partsof edible fungus residues, 25-35 parts of furfural residue, 8-12 parts of rice bran, 6-10 parts of peanut shells, 5-10 parts of rape seed shells, 5-10 parts of corncob disintegrating slag, 4-8 partsof plant residual leaves, 10-20 parts of livestock manure, 0.2-0.5 parts of an EM microbial agent, 0.3-0.6 parts of vinegar residues, 1.1-1.5 parts of an improver, 1.2-1.6 parts of calcium carbonate,1-2 parts of calcium superphosphate and 1-2 parts of limestone. According to the low-carbon composite culture material, the chaff crop waste is subjected to puffing treatment, the nitrogen content ofsubstances is enriched, cottonseed hulls and part of wheat bran are replaced, the cost is saved, and toxin is not contained; and meanwhile, the puffed rice husks are good in dispersity, the inoculation capacity is greatly improved when the puffed rice husks are used as a culture material, and the improver is further added, contains nano jade powder and a large number of microelements beneficial tohuman bodies, is absorbed by edible fungi and is beneficial to the human bodies after being converted by a food chain.

Description

technical field [0001] The invention belongs to the field of edible fungus compost, and in particular relates to a low-carbon composite compost for edible fungi. Background technique [0002] Edible fungus is recognized as a healthy food in the world, and it is also one of the important vegetable varieties that are indispensable in the daily life of citizens. my country is a big producer of edible fungi. According to statistics from the China Edible Fungi Association, in 2009, the total output of edible fungi in my country has exceeded 1800 The cultivation of edible fungi has become a good project for rural farmers all over the country to get rid of poverty and become rich. For a long time, the cultivation of most edible fungus varieties in my country has used cottonseed husk as the main raw material. With the continuous development of the edible fungus industry, the demand for cottonseed husk is increasing, and cottonseed husk is a by-product of cottonseed oil extraction. It...

Claims

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Application Information

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IPC IPC(8): C05G3/00
CPCC05G3/00C05B1/02
Inventor 孔德徐程建华何伟德赵伟
Owner 安徽每日六八生物科技有限公司
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