基于复合抗扰的溶解氧浓度控制

魏伟; 陈楠; 左敏; 刘载文

引用本文:	魏伟,陈楠,左敏,刘载文.基于复合抗扰的溶解氧浓度控制[J].控制理论与应用,2020,37(9):1895~1903.[点击复制]
	WEI Wei,CHEN Nan,ZUO Min,LIU Zai-wen.Compound disturbance rejection control of dissolved oxygen concentration[J].Control Theory and Technology,2020,37(9):1895~1903.[点击复制]

基于复合抗扰的溶解氧浓度控制

Compound disturbance rejection control of dissolved oxygen concentration

摘要点击 1522 全文点击 726 投稿时间：2019-11-12 修订日期：2020-04-27

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DOI编号 10.7641/CTA.2020.90936

2020,37(9):1895-1903

中文关键词溶解氧浓度 1号基准仿真模型扩张状态观测器滑模控制复合抗扰控制

英文关键词 dissolved oxygen concentration benchmark simulation model No.1 (BSM1) extended state observer sliding mode control compound disturbance rejection control

基金项目北京市教委北京市自然科学基金联合项目(KZ201810011012), 北京市属高等学校青年拔尖人才培育计划项目(CIT&TCD201704044)资助.

作者	单位	E-mail
魏伟	北京工商大学计算机与信息工程学院	weiweizdh@126.com
陈楠	北京工商大学计算机与信息工程学院
左敏^*	北京工商大学计算机与信息工程学院	zuomin@btbu.edu.cn
刘载文	北京工商大学计算机与信息工程学院

中文摘要

污水处理中, 出水水质受进水流量、组分以及浓度波动等因素影响. 要保证处理效果, 溶解氧浓度控制应有较强的鲁棒性. 简单闭环控制的能耗及出水水质波动大. 为此, 本文以污水处理过程1号基准仿真模型模拟污水生化处理过程, 提出基于扩张状态观测器和滑模控制的复合抗扰控制方法, 以降低对模型信息的依赖, 保证溶解氧浓度控制效果. 数值仿真结果显示, 复合抗扰控制能够以较小的能耗获得期望的调控效果. 这表明, 复合抗扰控制具有很好的适应性, 能够满足调控要求, 是一种具有较强实用性的污水处理溶解氧浓度控制方法.

英文摘要

In a wastewater treatment process, its effluent quality is affected by large perturbations in rate, composition and concentration of the influent flows. Control of dissolved oxygen concentration should be robustness enough so as to guarantee effect of the wastewater treatment. Simple closed-loop control is of high energy consumption and it cannot ensure the quality of effluent water. In order to address it, in this paper, the benchmark simulation model No.1 (BSM1) is utilized to imitate biochemical treatment processes of a wastewater treatment, and a compound disturbance rejection control (CDRC) based on an extended state observer and a sliding mode control is proposed. CDRC is able to achieve desired regulation of the dissolved oxygen concentration without depending on specific model information. Numerical simulation results show that the CDRC can guarantee the desired performance with less energy consumption. It indicates that the CDRC is a practical technique in dissolved oxygen concentration control, which has desired adaptability and can satisfy the regulation requirements.