What types of fertilizers can be produced using organic fertilizer equipment?
2022/08/30
Utilize the npk fertilizer production line to produce fertilizers containing sufficient NPK fertilizers, which help plants grow, increase the yield of seeds and fruits, and improve the quality of leaves and fodder crops. They are an inevitable part of our daily life, so it is important to produce high-quality NPK fertilizers.
At the same time, the bio organic fertilizer production line is used to produce bio-organic fertilizer, which contains a variety of functional microorganisms and rich organic matter, which can improve the soil structure and play a role in nutrition, conditioning and health care for crop growth. Used in conjunction with chemical fertilizers, the nitrate content in agricultural products is correspondingly reduced. Tests have shown that bio-organic fertilizer can reduce the nitrate content of vegetables by an average of 48.3--87.7%, increase the nitrogen, phosphorus and potassium content by 5--20%, increase vitamin C, reduce the total acid content, increase reducing sugar, and increase the sugar-acid ratio. , especially for tomatoes, lettuce, cucumbers, etc., can significantly improve the taste of raw food parts. Therefore, with the use of bio-organic fertilizer, the leaves of agricultural products are fresh and tender, the taste is sweet, and it is more delicious.
In the organic fertilizer production process, the poultry and livestock manure organic fertilizer equipment uses chicken and pig manure as the main raw materials, adds a certain amount of nitrogen fertilizer, phosphate fertilizer, potassium fertilizer, magnesium sulfate, etc., and ferments with rice bran, yeast, soybean meal and sugar for a certain period of time. , Organic fertilizer can improve soil and improve fertility. In addition, the reasonable matching of the fineness of raw materials during granulation is very important for the production process of organic fertilizer. The fineness of the entire raw material should be matched as follows: 100-60 mesh raw materials account for about 30%-40%, 60-mesh to diameter 1.00mm raw materials account for about 35%, and small particles with a diameter of 1.00-2.00mm account for about 25%-30% , the higher the fineness of the material, the better the viscosity, and the higher the surface finish of the particles after granulation. However, in the production process, the use of an excessive proportion of high-fineness materials is prone to problems such as excessively large particles and irregular particles due to excessive viscosity.
