Low-carbon composite biological organosilicon magnesium potassium fertilizer

An organic silicon and carbon composite technology, applied in fertilizer mixtures, fertilization devices, applications, etc., can solve the problems of destroying soil biological ecology, low yield, product quality, and difficulty in promotion and use, and achieves enhanced biological activity and improved fertility. , the effect of improving the quality of agricultural products

Inactive Publication Date: 2013-11-27
陕西雅枫菌业科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Oil shale is a natural substance with a high content of humic acid in active organic matter. Using it to make green fertilizer products is the best basic raw material. In recent years, with the development of agricultural production, farmers use chemical fertilizers and chemical pesticides for food production. , obtained high yields, but also brought potential hazards to agriculture, for example, pesticide residues in the soil of rural cultivated land, the use of chemical fertilizers caused soil compaction, and destroyed the soil dimensional ecology. With the spread and development of this hazard, the production of The quality of the products has seriously declined. In recent years, the Ministry of Agriculture has realized this and requires the use of organic fertilizers in the soil to improve this state and protect the ecological environment and human health.
[0003] According to the data retrieval conducted by the applicant, it is very rare to use oil shale to make fertilizers through biodegradation in China. Even if there are such commodities, but because of the small output and some problems with product quality, it is very difficult to popularize and use them.

Method used

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  • Low-carbon composite biological organosilicon magnesium potassium fertilizer
  • Low-carbon composite biological organosilicon magnesium potassium fertilizer
  • Low-carbon composite biological organosilicon magnesium potassium fertilizer

Examples

Experimental program
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Effect test

Embodiment 1

[0014] This example provides a low-carbon composite bioorganosilicon magnesium potassium fertilizer for the production of 1 ton, which consists of the following raw materials: organic silicon fertilizer base material: 700kg, magnesium sulfate: 50kg, superphosphate: 100kg, potassium sulfate: 150kg.

[0015] Every 1 ton of organic silicon fertilizer base material is composed of the following raw materials according to the weight ratio:

[0016] Oil shale powder: 700kg, straw powder: 140kg, medical stone 100kg, yeast: 6kg, urea: 4kg, bran 50kg.

[0017] The preparation method is as follows: drying the oil shale at 100°C for 5-10 hours, then ball-milling to a powder of 100-200 mesh, putting it in a fermentation tank, adding a formula amount of straw powder, wheat straw powder to the oil shale powder Rice stone powder or zeolite powder, bran, yeast and urea are fermented for 7 days to 8 days at a temperature of 50°C to 70°C to make organic silicon fertilizer base material.

[0018...

Embodiment 2

[0023] The preparation method of the present embodiment is the same as embodiment 1, and what differs from embodiment 1 is: every 1 ton of organic silicon fertilizer base material is made up of following raw materials by weight ratio:

[0024] Oil shale powder: 700kg, straw powder: 140kg, zeolite powder: 100kg, yeast: 6kg, urea: 4kg, bran 50kg.

Embodiment 3

[0026] The preparation method of the present embodiment is the same as that of Example 1, and what is different from Example 1 is: the production of 1 ton of low-carbon composite bioorganic silicon magnesium potassium fertilizer is made up of the following raw materials: organic silicon fertilizer base material: 600kg, magnesium sulfate: 100kg, Superphosphate: 150kg, potassium sulfate: 150kg.

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Abstract

The invention discloses a low-carbon composite biological organosilicon magnesium potassium fertilizer which is prepared from the following raw materials in percentage by weight: 60-70% of organosilicon fertilizer base material, 5-10% of magnesium sulfate, 10-15% of calcium superphosphate and 10-15% of potassium sulfate, totaling 100%. The low-carbon composite biological organosilicon magnesium potassium fertilizer disclosed by the invention can reduce the pesticide consumption, enhance the yield of the agricultural product, improve the quality of the agricultural product, and eliminate the soil hardening and pollution caused by the fertilizer and pesticide, thereby improving the soil, enhancing the soil productivity and implementing high quality and yield increase of the agricultural product.

Description

technical field [0001] The invention belongs to the technical field of fertilizers, and relates to the preparation of organic silicon fertilizers by using biotechnology, specifically, a low-carbon composite bioorganic silicon magnesium potassium fertilizer which uses natural oil shale as the basic raw material and is refined by modern biotechnology processes . Background technique [0002] Oil shale is a natural substance with a high content of humic acid in active organic matter. Using it to make green fertilizer products is the best basic raw material. In recent years, with the development of agricultural production, farmers use chemical fertilizers and chemical pesticides for food production. , obtained high yields, but also brought potential hazards to agriculture, for example, pesticide residues in the soil of rural cultivated land, the use of chemical fertilizers caused soil compaction, and destroyed the soil dimensional ecology. With the spread and development of this...

Claims

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Application Information

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IPC IPC(8): C05G3/00
Inventor 梁德俊寇军芳张惠全
Owner 陕西雅枫菌业科技有限公司
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