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Synthesis and Operability Strategies for Computer-Aided Modular Process Intensification
Covers methodological advances and real-world applications for computer-aided process modeling, optimization, and control in process intensification systems
Efstratios N Pistikopoulos (Author), Yuhe Tian (Author)
9780323855877, Elsevier Science
Paperback, published 7 April 2022
336 pages
23.5 x 19 x 2.2 cm, 0.7 kg
Synthesis and Operability Strategies for Computer-Aided Modular Process intensification presents state-of-the-art methodological developments and real-world applications for computer-aided process modeling, optimization and control, with a particular interest on process intensification systems. Each chapter consists of basic principles, model formulation, solution algorithm, and step-by-step implementation guidance on key procedures. Sections cover an overview on the current status of process intensification technologies, including challenges and opportunities, detail process synthesis, design and optimization, the operation of intensified processes under uncertainty, and the integration of design, operability and control. Advanced operability analysis, inherent safety analysis, and model-based control strategies developed in the community of process systems engineering are also introduced to assess process operational performance at the early design stage.
1. Introduction to process intensification
2. Towards computer-aided process intensification
3. Phenomena-based synthesis for process intensification
4. Process synthesis, optimization and intensification
5. Process synthesis, intensification and heat integration
6. Material selection, process synthesis and intensification
7. Operability and control challenges in process intensification
8. Steady-state and dynamic flexibility analysis
9. Inherent safety analysis
10. Advanced model-based control
11. Synthesis and optimization of operable process intensification systems
12. Identification of performance limits for olefin metathesis reactive separation process
13. Synthesis of ethanol-water extractive separation systems with ionic liquid solvents selection
14. Process design and intensification of an industrial dividing wall column for methyl methacrylate separation
15. Steady-state synthesis and design of methyl tert-butyl ether production process with safety and operability considerations
16. Simultaneous design and control of a methyl tert-butyl ether reactive distillation system
17. A framework for synthesis of operable and intensified systems
Subject Areas: Enterprise software [UFL], Chemical engineering [TDCB]
