How is amino acid fertilizer produced?

Amino acid fertilizer is produced using a variety of organic materials that are processed together.

Raw Materials

The production of amino acid fertilizer involves several key ingredients:

• Animal Residual Body: This includes byproducts from animal processing.
• Plant Straw: Agricultural residues like straw from various crops.
• Castor Bean Cake: A byproduct of castor oil production.
• Leftover from Monosodium Glutamate Production: Waste materials generated during MSG manufacturing.
• Vinasse: A byproduct of sugar production.
• Pollution-Free Pond Sludge: Organic-rich sludge from ponds that is free from pollutants.
• Turf: Grass clippings and sod.
• Organic Fertilizer Starter: Specific microbial cultures that aid in decomposition and fermentation.
• Sterilizing Deodorant: A substance used to eliminate odors and pathogens during processing.
• Amino Acid Chelating Trace Elements: Essential micronutrients that are bound to amino acids for better absorption by plants.

Production Process

The production process generally involves the following steps:

1. Mixing of Raw Materials: The listed materials are combined in specific ratios to form the initial mixture.
2. Fermentation: The mixture undergoes fermentation, aided by the organic fertilizer starter, which breaks down complex organic molecules into simpler forms, including amino acids. This process is crucial for converting raw materials into plant-available nutrients.
3. Sterilization & Deodorization: Sterilizing deodorants are applied to eliminate pathogens and unpleasant odors that may arise during the fermentation process. This ensures that the final product is safe for use and doesn't have a strong smell.
4. Chelation: The amino acid chelating trace elements are added. This process binds the trace elements to amino acids, improving their uptake by plants.
5. Processing and Packaging: The processed material is then dried, granulated, and packaged for use as fertilizer.

Key Points

• Organic Materials: The use of diverse organic materials ensures a nutrient-rich product.
• Microbial Action: The fermentation process is a key step that breaks down raw materials.
• Enhanced Nutrient Uptake: Chelating trace elements with amino acids helps plants absorb essential micronutrients more efficiently.
• Environmentally Friendly: The use of organic materials makes this a more sustainable option compared to chemical fertilizers.

By combining these materials and undergoing these processes, a valuable amino acid-based fertilizer is produced, which supports plant growth and improves soil health.