Slow-release fertilizer for soil improvement and preparation method and application thereof
A slow-release fertilizer and soil improvement technology, applied in the field of agricultural environmental science, can solve the problems of resource waste, air pollution, and no economic benefits, and achieve the effects of increasing food production, no secondary pollution, and satisfying plant biological activity
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Embodiment 1
[0034] (1) Phosphate rock powder was activated by adding hydrochloric acid for 0.5h, during which it was continuously heated and stirred at 100°C. The concentration of hydrochloric acid remains at 1mol / L, and the quality of phosphate rock powder is 30%;
[0035] (2) After activation, ferrous sulfate solution and crushed crop waste (corn stalks) were added and mixed together for 0.5 h, during which the mixture was continuously heated and stirred at 100° C. until viscous, and a viscous material was obtained. Ferrous sulfate concentration remains on 0.1mol / L, and the quality of crop waste is 50%;
[0036] (3) Carbonize the viscous material obtained in step (2) at 100° C. for 1 min, and pulverize it into powder after cooling.
[0037] (4) The powder obtained in step (3) is cross-linked with dextrin, extruded into fertilizer granules, and the final slow-release fertilizer for soil improvement is obtained.
Embodiment 2
[0039] (1) Phosphate rock powder was activated by adding sulfuric acid for 3 hours, during which it was continuously heated and stirred at 80°C. The concentration of sulfuric acid is kept at 0.5mol / L, and the quality of phosphate rock powder is 50%;
[0040] (2) After activation, ferric chloride solution and crushed crop waste (mixture of corn stalks and rice husks) were added and mixed together for 2 hours, during which the mixture was continuously heated and stirred at 80° C. until viscous, and a viscous substance was obtained. Ferric chloride concentration remains on 0.5mol / L, and the quality of crop waste is 25%;
[0041](3) Carbonize the viscous substance obtained in step (2) at 500°C for 10 minutes, and pulverize it into powder after cooling.
[0042] (4) Cross-linking the powder obtained in step (3) with carboxymethyl cellulose and extruding it into fertilizer granules to obtain the final slow-release fertilizer for soil improvement.
Embodiment 3
[0044] (1) Phosphate rock powder is activated by adding phosphoric acid for 5 hours, during which it is continuously heated and stirred at 50°C. The concentration of phosphoric acid is kept at 1mol / L, and the quality of phosphate rock powder is 80%;
[0045] (2) After activation, add ferrous chloride solution and crushed agricultural waste (corn stalks, bagasse, rice husk and rice husk mixture) and mix together for 3 hours, during which it is heated and stirred continuously at 50 ° C until it becomes viscous, and the obtained Goo. Ferrous chloride concentration remains on 1mol / L, and the quality of crop waste is 10%;
[0046] (3) Carbonize the viscous material obtained in step (2) at 800° C. for 20 minutes, and pulverize it into powder after cooling.
[0047] (4) The powder obtained in step (3) is cross-linked with cyclodextrin, extruded into fertilizer granules, and the final slow-release fertilizer for soil improvement is obtained.
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