In today’s booming green agriculture and circular economy, the new type organic fertilizer granulator has become a core equipment for resource recycling. It not only efficiently produces high-quality organic fertilizer but also turns various organic wastes into valuable resources.
1.Livestock and Poultry Manure
This is the most common and primary source of raw materials. The new type organic fertilizer granulator can efficiently process:
Chicken manure: A thermogenic material with high nutrient content, producing granules with strong fertilizer efficiency.
Pig manure: Has a relatively fine texture and requires mixing with other materials to improve aeration.
Cow manure: High in fiber content, resulting in organic-rich granules that effectively improve soil quality.
Sheep manure, duck manure, quail manure, and others can also be efficiently processed.
The equipment effectively addresses issues such as stickiness and uneven moisture content in manure, producing uniform, high-quality fertilizer granules.
2.Straw Waste
Materials like corn straw, wheat straw, and rice straw can be crushed, mixed with livestock manure for fermentation and granulation. This helps adjust the carbon-to-nitrogen ratio and produces loose, well-aerated organic fertilizer granules.
3.Processing By-Products and Sludge
Food processing by-products such as mushroom residue, herbal residue, sugar residue, distiller’s grains, and vinegar residue are extremely rich in organic matter.
After proper treatment, municipal sludge and river sediment can also serve as raw materials for granulation, achieving both environmental protection and economic benefits.
4.Other Non-Conventional Raw Materials
Shell materials like rice husks and peanut shells can be used as conditioning agents.
Plant ash can increase the potassium content in the fertilizer.
Agricultural processing waste, such as fruit peels, vegetable leaves, and other kitchen waste, can also be used after treatment.
In summary, the new type organic fertilizer granulator, with its advanced structural design and adjustable processing parameters, offers strong adaptability to raw materials with varying moisture levels, viscosity, and fiber content.