How to Improve Output Of Cement Rotary Kiln
Brief Introduction of Rotary Kiln
Rotary kilns have been used in various industrial applications including cement production line, others for example (e.g., oil shale retorting, tar sands coking, incineration, etc.). The rotation of a cylinder-shaped vessel positioned longitudinally approximately 30° of the horizontal position ensures a continuous motion of catalyst between the entrance and exit of the kiln.
The output of common cement rotary kiln production can only be achieved according to the conventional production. In production process, cooperation between various equipments and simplification of process technology can increase the output of the production line under same conditions, as long as customer pays attention to following: one is that every process is just right, and output can be improved a lot.
Tips for improve cement kiln working efficiency
- Improve process level: The output of cement is closely related to its production process. The better the production process, the higher the annual output of clinker production line. The quality of each process determines the cement output and improves the cement of each process. The production of a production line will continue to increase.
- Optimize the pre-decomposition system: According to the characteristics of different raw materials and fuels, optimize the pre-decomposition system, not only can improve fuel efficiency and burn-up rate, but also ensure the material is fully dispersed and evenly distributed, which can improve the decomposition of materials into the kiln. Rate, from improving the quality production and output of the rotary kiln production line.
- Improve the thermal load of the rotary kiln: It has been found through research and practice that increasing the coal consumption of the rotary kiln head can potentially exploit the production capacity of the rotary kiln, thereby increasing the output of the entire cement production, and calcining the clinker under specific raw materials. Temperature and time are certain, and cross-section heat load and wind speed are related. Therefore, the increase of production line production is closely related to the cross-section heat load.