Coconut & Palm slag rotary dryers (patent number:ZL200920089749.2)are specifically designed and manufactured based on the property of coconut slags and palm fruit slags, which have the advantage of large capacity, high drying ability, high efficiency, easy operation, guaranteed quality, less footprint, etc. This product could save 30% to 50% energy compared with similar products, largely reducing the fuel consumption and operation cost. Our product can be customized according to the property of biomass materials, output requirement, the application requirements, cost control, automation level, site conditions, and other requirements. Coconut slag is the byproduct of the coir fiber industry. With strong water absorption capacity, good ventilation performance, pest resistance, and other characteristics, it has been widely used as the medium of mushrooms and flowers. Similarly, palm slag is the main byproduct of palm fiber industry, which can be processed into biomass solid fuel.
Materials flow: Crushed materials(55%-25% MC) are delivered to the drum for concurrent drying process through the belt conveyor. Wet materials are lifted up and down by the internal flights and pushed through triple shells in a spiraling pattern, which realizes full heat exchange between cool materials and heated air. The dry materials could pass through the drum quickly under the air force. Wet materials would be dropped gradually and get fully dried to 5% to 15% moisture. The dry materials would be delivered out of the systems through a screw conveyor. Inside the drum, there is a vibration cleaning device, which could prevent the adhesion between materials and the drum surface.
Air flow: Cool air is compressed into the furnace through blower and heated to300℃ to 550℃. Then the heated air taken into the drum by draught fan would exchange the heat with wet materials, absorb the moisture and get delivered out of the drum with the temperature reduction of 50℃ to 60℃. The exhaust gas will be dealt with a cyclone dust collector and wet dust collector, which would eventually meet the exhaustion requirement.
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