无水氟化铝生产工艺能源综合利用及相关技术改造

Anhydrous Aluminum Fluoride Production Process Comprehensive Utilization of Energy and Related Technological Transformation

无水氟化铝生产工艺是具有世界先进水平的第三代生产无水氟化铝新技术,但随着氟化铝市场竞争的日趋严重及能耗指标的管控,降低能耗、低碳运行是一项新的重大课题,迫在眉睫亟待解决。根据生产实践,文章总结分析了无水氟化铝生产过程中通过优化技术改造能源梯级综合利用,从源头有效回收系统小颗粒粉尘物料,防止大量粉尘物料进入洗涤系统及尾气达标排放的重要性,不仅为无水氟化铝生产经营带来的巨大经济效益,而且有效延长生产系统运行周期,大大降低了检修频次及员工劳动强度,同时也降低了检修过程中的风险,确保了生产的连续稳定。

Anhydrous aluminum fluoride production process—is the third generation of new technology,with the world’s advanced level of anhydrous aluminum fluoride production new technology,but with the increasingly serious competition in the aluminum fluoride market and the control of energy consumption indicators,reducing energy consumption and low-carbon operation is a new major issue,which needs to be solved urgently.According to the production practice,the importance of transforming the comprehensive utilization of energy cascade through optimization technology,effectively recovering small particles of dust materials from the source and preventing a large number of dust materials from entering the washing system and exhaust gas up to standard in the production process of anhydrous aluminum fluoride is summarized and analyzed,which not only brings great economic benefits to the production and operation of anhydrous aluminum fluoride,but also effectively extends the operating cycle of the production system,greatly reduces the frequency of maintenance and the labor intensity of employees,and also reduces the risk in the maintenance process to ensure the continuous stability of production.