2026/05/13
New type organic fertilizer granulator primarily employ the wet agglomeration granulation principle. Its core principle utilizes mechanical force, aided by water or a liquid binder, to cause fine powdery materials to adhere and roll together, gradually increasing in size into spherical particles. This process mainly relies on the "liquid bridge force" formed between particles; therefore, the fineness of the material, a suitable moisture content (typically 25%-35%), and the selection of the binder are crucial for pellet formation.
Current mainstream new equipment, such as double roller press granualtors, disc granulators, and rotary drum granulators, have all been optimized and upgraded based on this fundamental principle. Compared to earlier equipment, their "newness" is mainly reflected in multi-faceted integration and intelligentization. Firstly, the process is more complex; modern production lines often integrate multiple processes such as mixing, granulation, and rounding to form a continuous production line, significantly improving the pellet forming rate, regularity, and strength. Secondly, the precision of control is enhanced. By integrating sensors and an automatic control system, it can monitor and adjust material moisture content, equipment speed, and feed rate online, ensuring the pelletizing process remains optimal and significantly improving product quality stability. Finally, the design prioritizes environmental friendliness and durability. The equipment employs a more sealed structure to reduce dust and uses corrosion-resistant and wear-resistant materials to address the complex characteristics of organic raw materials, reducing maintenance costs.
In conclusion, the new pelletizer not only focuses on the basic result of "turning powder into pellets," but also strives to achieve a highly efficient, stable, and clean production process through process integration and intelligent control, meeting the demands of the modern organic fertilizer industry for large-scale, high-quality development.
