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Organic and inorganic compound fertilizer for leguminous plants and preparation method thereof

A technology of composition and organic fertilizer, which is applied in the direction of fertilizer mixture, fertilization device, application, etc., can solve the problems of unreasonable and incomplete distribution of fertilizer nutrient components, and inability to increase the dry matter accumulation of legumes in a targeted manner. , to achieve the effect of increasing dry matter accumulation and increasing yield

Inactive Publication Date: 2016-01-13
东莞市积庆生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Some of the existing legume fertilizers on the market today have unreasonable, incomplete and unreasonable distribution ratios of nutrients and nutrients, and the indicators are not highly targeted, and cannot play a role in improving the dry matter accumulation of legumes in a targeted manner, so as to achieve the goal of improving legumes. Technical Effects of Plant Yield

Method used

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  • Organic and inorganic compound fertilizer for leguminous plants and preparation method thereof
  • Organic and inorganic compound fertilizer for leguminous plants and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] Dry 20 grams (20 parts by mass) of an organic fertilizer with an organic matter content greater than or equal to 65% at 60°C-150°C until the water content is less than or equal to 30% to obtain a dried product 1. 22 grams (22 parts by mass) of urea, 10 grams (10 parts by mass) of ammonium dihydrogen phosphate, 10 grams (10 parts by mass) of superphosphate, 19 grams (19 parts by mass) of potassium sulfate and 7 grams (7 parts by mass) of magnesium sulfate part) the mixture is pulverized to a particle size of 80-500 meshes, fully mixed and stirred evenly to obtain the mixed material A1. 1 gram (1 mass part) of ferrous sulfate, 0.1 gram (0.1 mass part) of manganese sulfate, 0.1 gram (0.1 mass part) of copper sulfate, 0.3 gram (0.3 mass part) of zinc sulfate, 0.4 gram (0.4 mass part) of sodium molybdate part), boric acid 0.2 gram (0.2 mass part), cobalt chloride 0.002 gram (0.002 mass part), potassium iodide 0.05 gram (0.05 mass part) and complex sodium nitrophenolate 0.01 ...

Embodiment 2

[0022] Dry 24.17 grams (24.17 parts by mass) of organic fertilizer with an organic matter content greater than or equal to 65% at 60°C-150°C until the water content is less than or equal to 30%, and the dried product 2 is obtained. With 23 grams of urea (23 parts by mass), 11 grams of ammonium dihydrogen phosphate (11 parts by mass), 11 grams of superphosphate (11 parts by mass), 20 grams of potassium sulfate (20 parts by mass) and 8 grams of magnesium sulfate (8 parts by mass) part) the mixture is pulverized to a particle size of 80-500 mesh, fully mixed and stirred evenly to obtain the mixed material A2. 1 gram (1 mass part) of ferrous sulfate, 0.3 gram (0.3 mass part) of manganese sulfate, 0.2 gram (0.2 mass part) of copper sulfate, 0.4 gram (0.4 mass part) of zinc sulfate, 0.5 gram (0.5 mass part) of sodium molybdate part), 0.3 gram (0.3 mass part) of boric acid, 0.01 gram (0.01 mass part) of cobalt chloride, 0.1 gram (0.1 mass part) of potassium iodide and 0.02 gram (0.02...

Embodiment 3

[0024] Dry 30 grams (30 parts by mass) of an organic fertilizer with an organic matter content greater than or equal to 65% at a temperature of 60°C-150°C until the water content is less than or equal to 30% to obtain a dried product 3. 24 grams (24 parts by mass) of urea, 12 grams (12 parts by mass) of ammonium dihydrogen phosphate, 12 grams (12 parts by mass) of superphosphate, 21 grams (21 parts by mass) of potassium sulfate and 9 grams (9 parts by mass) of magnesium sulfate part) the mixture is pulverized to a particle diameter of 80-500 meshes, fully mixed and stirred evenly to obtain the mixed material A3. 3 grams (3 parts by mass) of ferrous sulfate, 2 grams (2 parts by mass) of manganese sulfate, 0.3 grams (0.3 parts by mass) of copper sulfate, 0.5 grams (0.5 parts by mass) of zinc sulfate, 0.6 grams (0.6 parts by mass) of sodium molybdate part), 0.4 gram (0.4 mass part) of boric acid, 0.01 gram (0.01 mass part) of cobalt chloride, 0.1 gram (0.1 mass part) of potassium...

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Abstract

The invention belongs to the technical field of fertilizers. The embodiment of the invention discloses an organic and inorganic compound fertilizer for leguminous plants and a preparation method thereof. The fertilizer comprises organic fertilizer and / or humic acid, urea, ammonium di-hydrogen phosphate, superphosphate, potassium sulfate, magnesium sulfate, ferrous sulfate, manganese sulfate, copper sulfate, zinc sulfate, sodium molybdate, boric acid, cobalt chloride, potassium iodide and synergist. The raw materials of the fertilizer are dried, smashed and mixed to obtain the product. The organic and inorganic compound fertilizer can be applied to the field of leguminous plants. Compared with conventional special fertilizers for leguminous plants, the prepared organic and inorganic compound fertilizer can improve dry matter accumulation of the leguminous plants effectively and have good economic benefit.

Description

technical field [0001] The invention belongs to the technical field of fertilizers, and in particular relates to a legume organic-inorganic compound fertilizer composition and a preparation method thereof. Background technique [0002] The basis of high yield of legumes is to increase the biomass of its population and transfer it to economic organs in a larger proportion. Many experts at home and abroad have reported that the high yield of legumes, in addition to improving the economic coefficient of varieties, also plays an important role in the improvement of biological yield. Roots, stems, leaves and other vegetative organs are the basis of legume flowering, fertilization and pod formation for reproductive growth. The two must be coordinated and maintain a certain proportional relationship to achieve high yield of legumes. If the vegetative body grows too small and the dry matter accumulation is small, it will be difficult to provide sufficient material supply for reprod...

Claims

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Application Information

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IPC IPC(8): C05G3/00
Inventor 刘义存郭知敬温智谋
Owner 东莞市积庆生物科技有限公司