In the fertilizer, chemical, and mineral industries, rotary drum granulators are key equipment for material granulation. Through their unique mechanical structure and operating principle, they transform loose materials such as powders and slurries into uniform granules, significantly improving the efficiency of material storage, transportation, and utilization, and occupying a vital position in the industrial production chain.
Structurally, a rotary drum granulator primarily consists of a rotating drum, a transmission system, a support assembly, a feed mechanism, a spray system, and a discharge mechanism. The core component, the rotating drum, is mounted at an angle, and the inner wall of the drum is typically equipped with skimmers and linings to prevent material adhesion and enhance mixing and agitation. The transmission system, via a motor and reducer, drives the drum in constant rotation, while the support assembly, via rollers and retaining rollers, ensures stable operation. These components work together to provide a stable granulation process. Its operating principle follows the "agglomeration granulation" mechanism: when material (such as a nitrogen, phosphorus, and potassium mixed powder used in fertilizer production) enters the rotating drum from the feed inlet, the drum's tilting rotation causes the material to continuously tumble and move forward along the drum wall. Simultaneously, a spray system applies an appropriate amount of binder (such as water or starch solution) to the material. The mechanical tumbling and the action of the binder gradually agglomerate the material into small particles. As the drum rotates continuously, the small particles collide with and absorb the material, gradually growing into uniform particles that meet specifications and are ultimately discharged from the discharge port, completing the granulation process.
Drum granulators, with their many advantages, are widely used in various fields. In the fertilizer industry, they can convert mixed fertilizers into granules, preventing clumping and loss, and improving nutrient utilization. In the chemical industry, they are used to process materials such as catalysts and pigments, improving their flowability and reactivity. In the mineral industry, they can granulate mineral powders for subsequent smelting or transportation. Furthermore, it boasts high output, high particle uniformity, low energy consumption, and easy operation. It can adapt to the granulation needs of various materials, from easily sticky materials to powders with poor flowability, achieving efficient granulation simply by adjusting parameters.
As a key component of industrial granulation technology, the rotary drum granulator not only promotes automation upgrades in traditional industries but also provides reliable solutions for material processing in emerging fields such as new energy and environmental protection, making it an indispensable key piece of equipment in industrial production.