硕士生导师
教师拼音名称:zhangfangkun
电子邮箱:
入职时间:2019-09-02
学历:博士研究生
性别:男
联系方式:18554911864
学位:工学博士
毕业院校:大连理工大学
学科:化学工程
控制理论与控制工程最后更新时间:..
关键字:distillation; dynamic; process control ;energy
摘要:BACKGROUND: The triple-column extractive distillation (TCED) process for the ternary multi-azeotropic mixture of N-hexane/acetone/chloroform is a significant step in waste recovery and purification. Given the common occurrence of feed disturbances in practical industrial production, a feasible dynamic control scheme should effectively resist feed disturbances and ensure product quality, enabling the process to run steadily and safely with a high efficiency. However, it is challenging to design a robust control scheme for separation processes accompanied by side-stream capability. In this work, dynamic control schemes were designed for four separation processes: conventional and double side-stream TCED processes with single and double entrainers. A multipoint temperature control scheme, composition-temperature cascade control scheme and iable ratio control were combined to improve the dynamic performance of the control schemes. RESULTS: The results showed that the control schemes designed for the four extractive distillation processes are highly robust, resisting /- 20% feed flow and composition disturbances. A iable ratio control combined with composition-temperature cascade was found to be vital for double side-stream TCED schemes. CONCLUSION: The conventional TCED with a single entrainer (CS-TCED) is an optimal process for N-hexane/acetone/chloroform separation both from control and economic perspectives. The designed control scheme is simple, low-cost and easy-to-implement with a superior dynamic performance over other separation schemes. This study has a certain theoretical guidance for N-hexane/acetone/chloroform separation in terms of economic benefits and practical production.
卷号:97
期号:8
是否译文:否