Opportunities and challenges for process control in process intensification

• Published in: Chemical engineering and processing Vol. 52; pp. 1 - 15
• Main Authors: Nikačević, Nikola M., Huesman, Adrie E.M., Van den Hof, Paul M.J., Stankiewicz, Andrzej I.
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier B.V 01.02.2012; Elsevier
• Subjects: Applied sciences; Chemical engineering; Distillation; Dynamic optimization; Exact sciences and technology; Process actuation; Process control; Process intensification; Process synthesis; Reactors; Process intensification; Process synthesis; Process actuation; Process control; Dynamic optimization; Design; Distillation with reaction; Simulated moving bed; Control system; Moving bed reactor; Modeling; Optimization
• ISSN: 0255-2701; 1873-3204
• DOI: 10.1016/j.cep.2011.11.006

► PI rises challenges for control due to less DOF, tight interactions and fast dynamics. ► Model-based control has to be adapted for intensified processes and equipment. ► Alternative driving forces and energy sources can be used as new actuation options. ► Actuation possibilities should be examined systematically within process synthesis. ► Process synthesis should exploit PI and integrate design, operation and control. This is a review and position article discussing the role and prospective for process control in process intensification. Firstly, the article outlines the classical role of control in process systems, presenting an overview of control systems’ development, from basic PID control to the advanced model based hierarchical structures. Further on, the paper reviews the research articles discussing control issues of intensified process equipment, specifically of reactive distillation, divided wall distillation, simulated moving bed reactors and micro-scale systems. In the next section, the focus is on more fundamental, dynamic characteristics of selected intensified process categories, which are elucidated in several examples. The goal of this analysis is to stress to the potential challenges for control of intensified processes. More importantly, the aim of this part is to emphasize to the opportunities for control, which are associated with new actuation possibilities arising from process intensification. Finally, a new concept of process synthesis is elaborated, which is based on process intensification and actuation improvement. The concept enables integration of process operation, design and control through dynamic optimization. This simultaneous synthesis approach should provide optimal operation and more efficient control of complex intensified systems. It may also suggest innovative process solutions which are more economically and environmentally efficient and agile.