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Control and Safety Analysis of Intensified Chemical Processes covers the basic principles of and recent developments in control and safety analysis of intensified chemical processes, ranging from dynamic simulations and safety analysis to the design and control of important processes. The text discusses general methods and tools such as dynamic simulation, control and safety analysis as well as design aspects and analysis of important applications in order to provide scientists and engineers with an understanding of the design, control and safety considerations involved in intensified chemical processes.
Sample topics covered in Control and Safety Analysis of Intensified Chemical Processes include:
Simulation and optimization methods, common programs and simulators for simulation and optimization, and interfacing of simulators and optimizers
Programs/simulators for dynamic simulation and control, tuning of controllers, and popular criteria for control assessment
Control of a hybrid reactive-extractive distillation systems for ternary azeotropic mixtures, reactive distillation in recycle systems, and middle vessel batch distillation with vapor recompression
Safety analysis of intensified processes (e.g. extractive distillation, dividing wall column, dividing wall column with mechanical vapor recompression, and algal biodiesel process)
A comprehensive resource on the subject, Control and Safety Analysis of Intensified Chemical Processes is a highly valuable reference for researchers, students and practitioners interested in process intensification and their applications. The text can be adopted by instructors for use in advanced courses on process control and safety.
Introduction
Applications and Potential of Process Intensification in Chemical Process Industries
Simulation and Optimization of Intensified Chemical Processes
Dynamic Simulation and Control of Intensified Chemical Processes
Safety Analysis of Intensified Chemical Processes
Control of Hybrid Reactive–Extractive Distillation Systems for Ternary Azeotropic Mixtures
Process Design and Control of Reactive Distillation in Recycle Systems
Dynamics and Control of Middle-vessel Batch Distillation with Vapor Recompression
Safety Analysis of Intensified Distillation Processes Using Existing and Modified Safety Indices
Dynamic Safety Analysis of Intensified Extractive Distillation Processes with Independent Protection Layers
Operability and Safety Considerations in Intensified Structures for Purification of Bioproducts
Analysis of Safety and Economic Objectives for Intensified Algal Biodiesel Process