As a core piece of equipment for pellet forming, the rotary drum granulator is widely used in fertilizers, building materials, environmental protection, and many other fields. The scientific selection of this type directly affects production efficiency, product quality, and overall cost. To accurately select suitable equipment, a comprehensive evaluation system based on core needs is necessary to avoid the pitfalls of blind selection.
First, understanding the material characteristics is paramount. The physicochemical properties of different materials determine the appropriate equipment: highly viscous materials require drums lined with anti-stick materials (such as polyurethane or ceramic) to prevent pellet agglomeration and clogging; materials with poor flowability should focus on the drum's tilt angle and rotation speed design, typically with a tilt angle of 3°-6° and a speed of 10-20 r/min for easier uniform granulation; materials containing corrosive components require a stainless steel body to extend the equipment's lifespan. Simultaneously, key parameters such as material moisture content and particle size range must be clearly defined to ensure the equipment's granulation conditions match the material characteristics.
Second, matching capacity with operating conditions is crucial. Before selecting a model, it is essential to accurately calculate actual production needs to avoid "using a large machine for a small purpose" or "overloading a small machine." Small production lines (50-100 tons per day) can choose rotary drum granulators with a diameter of 1.2-1.8m; medium-sized production lines (100-500 tons per day) are suitable for equipment with a diameter of 2.0-2.8m; and large production lines require heavy-duty equipment with a diameter of 3.0m or more. Simultaneously, the installation difficulty and ease of maintenance should be considered in conjunction with the spatial layout of the production site, power supply capacity, ventilation conditions, and other operating conditions. For example, for outdoor operations, models with rainproof and dustproof designs should be selected.
Furthermore, the quality and performance of the equipment cannot be ignored. A high-quality rotary drum granulator should have a stable transmission system (such as a hardened gear reducer and heavy-duty bearings) to ensure smooth and trouble-free operation; the drum body should be welded from thick-walled steel plates and annealed to eliminate stress and prevent deformation over long-term operation; the sealing structure should be tightly designed to prevent dust leakage and material waste. In addition, attention should be paid to the intelligent configuration of the equipment, such as variable frequency speed control and automatic temperature control, to improve ease of operation and granulation accuracy.
Finally, energy consumption and environmental protection are key considerations. Choosing energy-saving motors and optimized transmission structures can reduce energy consumption per unit product; the equipment should be equipped with high-efficiency dust removal devices to meet environmental standards for dust emissions; for materials that easily generate odors, models that can be equipped with sealing covers and exhaust gas treatment interfaces should be selected to achieve green production.
Scientifically selecting a rotary drum granulator requires a comprehensive balance of factors such as material characteristics, production capacity requirements, equipment quality, energy consumption, and environmental protection. This, combined with the manufacturer's technical strength and after-sales service, ensures a precise match between the equipment and production needs, laying the foundation for efficient and stable production.