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Dynamics and Nonlinear Control of Integrated Process Systems
A theoretical and practical guide to reducing model complexity and achieving tight control of modern integrated plants.
Michael Baldea (Author), Prodromos Daoutidis (Author)
9780521191708, Cambridge University Press
Hardback, published 2 August 2012
272 pages, 115 b/w illus. 7 tables
25.3 x 17.8 x 1.9 cm, 0.65 kg
'The book should be useful to practitioners and researchers involved in dynamics and control, and as a reference for students of process systems engineering or process control.' CEP
Presenting a systematic model reduction and hierarchical controller design framework for broad classes of integrated process systems encountered in practice, this book first studies process systems with large material recycle and/or with small purge streams, followed by systems with energy integration. Step-by-step model reduction procedures are developed to derive nonlinear reduced models of the dynamics in each time scale. Hierarchical control architectures consisting of coordinated levels of control action in different time scales are proposed for each class of process systems considered to enforce stability, tracking performance and disturbance rejection. Numerous process applications are discussed in detail to illustrate the application of the methods and their potential to improve process operations. MATLAB codes are also presented to guide further application of the methods developed and facilitate practical implementations.
Part I. Preliminaries: 1. Introduction
2. Singular perturbation theory
Part II. Process Systems with Material Integration: 3. Process systems with significant material recycling
4. Process systems with purge streams
5. Dynamics and control of generalized integrated process systems
Part III. Process Systems with Energy Integration: 6. Process systems with energy recycling
7. Process systems with high energy throughput
References
Part IV. Appendices: A. Definitions
B. Systems with multiple time scale dynamics
C. MATLAB code.
Subject Areas: Chemical engineering [TDCB]
