1. The dryer is designed to be more systematic and scientific in structure, using a new type of lifting plate device with multiple functions such as guidance, uniform flow, and lifting. It can make the material evenly distributed in the radial section of the dryer, and the material curtain becomes thin, uniform, and complete, in contact with the hot air flow, further increasing the contact area between the material and the hot air, and achieving the goal of fully utilizing thermal energy.

2. By selecting reasonable operating parameters, the coal and electricity consumption of the dryer can generally be reduced by 10-15% or more, and the hourly output can be increased by 10-15% or more. It has been widely used in cement and mineral processing enterprises.

3. By adopting an automated operation mode and a newly researched high-temperature and high-speed drying process, the utilization rate of hot air has been improved. Moreover, the used hot air can continue to be recycled after being sent from the tail end to the front end, with high heat utilization rate, low heat loss, and reduced drying costs.

4. Faced with the requirements of low-carbon and green environmental protection, the dryer adopts a multi-layer settling design structure to reduce the loss rate of organic elements in the material, improve quality, and minimize noise and dust pollution during the drying process.