Fish meal has extremely high nutritional value and is a high-quality animal protein feed ingredient. Its core advantages are reflected in protein content, amino acid composition, and trace element supply. It is a high-protein powdered feed ingredient made by cooking, pressing, solid-liquid separation, drying, and grinding.
Meat and bone meal production line
High-fat raw materials are selected and first processed by a grinder, then dried by a disc dryer to remove moisture, and then pressed to separate oil. The pressed cake is sieved, crushed, cooled, and then packaged. The powder output is fast and the quality is stable.
Poultry meal production line
Meat and bone meal and poultry meal are important animal protein products. They are powdered feed protein meals made after high-temperature steam cooking and sterilization, pressing, solid-liquid separation, drying, cooling, and crushing. They are a high-quality substitute for fish meal. The finished powder has high protein content and low fat and moisture, and is one of the core protein sources for aquaculture and livestock and poultry farming.
Feather powder production line
Efficiently converts various waste feathers into high-protein feather meal with a balanced amino acid profile. It is not only an ideal ingredient for livestock and aquaculture feed, which can significantly reduce farming costs by replacing expensive fish meal and soybean meal, but can also be used in pet food processing and organic fertilizer production, adapting to diverse market demands.
Refined oil (animal oil refining) equipment
Extracts oil from animal fat tissue by heating, suitable for different animal raw materials and production needs. The common animal oil rendering process currently is the thermal oil refining process, which uses a reaction kettle for vacuum boiling to refine oil. The rendered oil has a light color, small odor, and high yield.
Concentration and exhaust gas treatment system
Utilizes waste gas generated by cooking machines and dryers for low-temperature vacuum evaporation, achieving high efficiency, energy saving, and environmental protection. It then combines specific factory site conditions and exhaust gas emission requirements to address the treatment of high-temperature, high-concentration exhaust gas containing steam generated by equipment such as raw material production and drying machines, and liquid tanks.