Preparation method of hedgehog hydnum mushroom compost

A preparation method and a technology of formulating nutrients, which are applied in botany equipment and methods, fertilizer mixtures, gardening, etc., can solve the problems of unfavorable growth of Hericium erinaceus, small size of Hericium erinaceus, and low nutritional content, and achieve formula and preparation method Simple, thick mycelium growth, fast growth effect

Inactive Publication Date: 2009-11-04
时忠良
0 Cites 8 Cited by

AI-Extracted Technical Summary

Problems solved by technology

[0002] At present, when people are cultivating Hericium erinaceus, they generally use straw material as the basis, adding some manure, chaff, etc., although the effect is very good, but the content of nutrients ...
View more

Abstract

The invention relates to a preparation method of hedgehog hydnum mushroom compost which comprises the following components according to the weight percent: 35-55 of cotton seed hull, 25-45 of corn cob, 10-16 of bran, 1.5-2 of bean cake, 0.5-1 of sugar, 0.5-1 of potassium phosphate fertilizer, 0.5-1 of plaster, 1.5-2 of potassium permanganate, 0.1-0.3 of sanmate, 0.1-0.3 of NPK compound fertilizer, 0.1-0.3 of oxygen increasing powder and 0.1-0.3 of mepartricin. The preparation method comprises the following steps: combining the cotton seed hull, the corn cob, the bran and the bean cake together according to a certain proportion; pouring into a grinder to be ground into grains of about 120mu; adding the sugar, the potassium phosphate fertilizer, the plaster, the potassium permanganate, the sanmate, the NPK compound fertilizer, the oxygen increasing powder and the mepartricin according to a certain proportion after taking out, then pouring into a mixer to be mixed for 60min, and taking; adding water according to the proportion of 1:1.3-1:1.5, uniformly mixing and piling up, and fermenting for 6h, thereby obtaining the qualified compost.

Application Domain

HorticultureFertilizer mixtures

Technology Topic

ChemistryPotassium permanganate +12

Examples

  • Experimental program(3)

Example Embodiment

[0007] Example 1: Cottonseed husk 35%, corn cob 45%, bran 13%, soybean cake 2%, sugar 0.8%, potassium phosphate fertilizer 1%, gypsum 0.6%, potassium permanganate 1.5%, carbendazim 0.1%, nitrogen Phosphorus-potassium compound fertilizer is 0.2%, oxygen-enhancing powder 0.3%, kimelin solution 0.5%, and the percentages are weight percentages.
[0008] Take cottonseed husks, corn cobs, bran, and bean cakes together in proportion, pour them into a pulverizer and crush them into particles of about 120 meshes. After taking them out, add sugar, potassium phosphate, gypsum, potassium permanganate, and multi-bacteria in proportion. Fertilizer, nitrogen, phosphorus and potassium compound fertilizer, oxygen-enhancing powder, Kemelin liquid, then pour it into a mixer and stir for 60 minutes, take it out, add 1:1.3-1:1.5 water in proportion, mix well and pile into a pile for 6 hours, and it will be qualified With nourishment.
[0009] The sugar, potassium phosphate fertilizer, gypsum, potassium permanganate, carbendazim, NPK compound fertilizer, aerobic powder, and kameylin in this formula are all purchased from the market.
[0010] Examples of cultivating Hericium erinaceus using the nutrient compound prepared by the present invention, such as: Xu Xiulan from Daxu Town, Tongshan County, Jiangsu Province, cultivated and planted 500 bags of Hericium erinaceus using the nutrient compound prepared by the present invention, and picked 5 consecutive times to harvest Hericium erinaceus The mushrooms are more than 1139 kilograms, which is 0.43 kilograms more per bag than other cultivating households who cultivated Hericium.
[0011] Another example: Wang Xia from Daxu Town, Tongshan County, Jiangsu Province, cultivated and planted 300 bags of Hericium erinaceus using the nutrient prepared by the technology of the present invention. He picked 6 consecutive times and harvested a total of 736 kg of Hericium erinaceus. Compared with mushroom cultivating households, each bag of Hericium erinaceus produced more than 0.51 kg.

Example Embodiment

[0012] Example 2: Cotton seed hulls 55%, corn cob 27%, bran 10%, bean cake 1.6%, sugar 1%, potassium phosphate fertilizer 0.8%, gypsum 1%, potassium permanganate 2%, carbendazim 0.3%, nitrogen Phosphorus-potassium compound fertilizer is 0.3%, oxygen-enhancing powder 0.2%, and kimelin solution 0.8%, the percentages are weight percentages.
[0013] Take cottonseed husks, corn cobs, bran, and bean cakes together in proportion, pour them into a pulverizer and crush them into particles of about 120 meshes. After taking them out, add sugar, potassium phosphate, gypsum, potassium permanganate, and multi-bacteria in proportion. Fertilizer, nitrogen, phosphorus and potassium compound fertilizer, oxygen-enhancing powder, and Kemelin liquid, then pour it into a mixer and stir for 60 minutes, take it out, add 1:1.3-1:1.5 water in proportion, mix well and pile into a pile and ferment for 6 hours, and it will be qualified. With nutrients.
[0014] Others are the same as in Example 1, omitted.

Example Embodiment

[0015] Example 3: Cotton seed hulls 45%, corn cob 33%, bran 16%, bean cake 1.7%, sugar 0.5%, potassium phosphate fertilizer 0.5%, gypsum 0.5%, potassium permanganate 1.8%, carbendazim 0.2%, nitrogen Phosphorus-potassium compound fertilizer 0.1%, oxygen-enhancing powder 0.1%, kimelin solution 0.6%, the percentages are weight percentages.
[0016] Take cottonseed husks, corn cobs, bran, and bean cakes together in proportion, pour them into a pulverizer and crush them into particles of about 120 meshes. After taking them out, add sugar, potassium phosphate, gypsum, potassium permanganate, and multi-bacteria in proportion. Fertilizer, nitrogen, phosphorus and potassium compound fertilizer, oxygen-enhancing powder, Kemelin liquid, then pour it into a mixer and stir for 60 minutes, take it out, add 1:1.3-1:1.5 water in proportion, mix well and pile into a pile for 6 hours, and it will be qualified With nourishment.
[0017] Others are the same as in Example 1, omitted.

PUM

no PUM

Description & Claims & Application Information

We can also present the details of the Description, Claims and Application information to help users get a comprehensive understanding of the technical details of the patent, such as background art, summary of invention, brief description of drawings, description of embodiments, and other original content. On the other hand, users can also determine the specific scope of protection of the technology through the list of claims; as well as understand the changes in the life cycle of the technology with the presentation of the patent timeline. Login to view more.

Similar technology patents

Preparation method of nutrition fertilizer for carnation

InactiveCN102775224ALow pollution ratethick growth
Owner:王珩

Special inoculation rod disinfection device for super clean bench

PendingCN111388710Areduce waiting timeLow pollution rate
Owner:BEIJING FORESTRY UNIVERSITY

Nursing culture method for immature seeds of torreya grandis

PendingCN114467750AStrong maneuverabilityLow pollution rate
Owner:ZHEJIANG UNIV +2

Organic mushroom culture material and preparation method thereof

InactiveCN106831036ALow pollution rateBacteria
Owner:贾金兰

Culture method for reducing brown change rate of apple explants

ActiveCN108157182ALow pollution rateImprove survival rate
Owner:SHANDONG YANTAI AGRI SCI & TECH INST

Classification and recommendation of technical efficacy words

  • Low pollution rate
  • Bacteria

Simple cordyceps militaris strain rejuvenation method

InactiveCN102037856Aeasy to operateLow pollution rate
Owner:BEIJING AGRO BIOTECH RES CENT +1

Rotary disk type automatic fungus inoculation machine

PendingCN106718073AGood sealingLow pollution rate
Owner:ZHEJIANG UNIV OF TECH

Inducing medium and method for improving survival rate of butterfly orchid pedicel

InactiveCN103688865ALow pollution rateImprove survival rate
Owner:TODAYS LANDSCAPING BIOLOGICAL TECH

Disinfection method for explant of lycoris plants

InactiveCN105028197AFully sterilizedLow pollution rate
Owner:ZHEJIANG UNIV

A method of formulating fertilizer in artemisia

InactiveCN102276334ALow pollution ratelower blood sugar
Owner:许吉雷
Who we serve
  • R&D Engineer
  • R&D Manager
  • IP Professional
Why Eureka
  • Industry Leading Data Capabilities
  • Powerful AI technology
  • Patent DNA Extraction
Social media
Try Eureka
PatSnap group products