Aditya Kumar

Control of Nonlinear Differential Algebraic Equation Systems with Applications to Chemical Processes (eBook, ePUB)

• Format: ePub

Produktbeschreibung

Introduces readers to the inherent characteristics of nonlinear DAE systems and the methods used to address their control. This work then discusses the significance of DAE systems to the modeling and control of chemical processes. It presents results on the stabilization and disturbance elimination for a large class of nonlinear DAE systems.

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Produktdetails

• Verlag: Taylor & Francis eBooks
• Seitenzahl: 174
• Erscheinungstermin: 22. Dezember 2020
• Englisch
• ISBN-13: 9781000153767
• Artikelnr.: 60802234

Autorenporträt

University of Minnesota. University of Minnesota.

Inhaltsangabe

Preface
1 DAEs: Background and Concepts
1. Introduction
1.2 Linear Systems
1.3 Nonlinear Systems
1.3.1 Descriptions
1.3.2 Solvability and Index
1.3.3 Comparison of high
index DAE and ODE systems
1.3.4 Regularity
2 Chemical Process Applications
2.1 Reactor with Fast Heat Transfer through Heating Jacket
2.2 Reactor with Fast and Slow Reactions
2.3 Two
Phase Reactor with Fast Mass Transfer
2.4 Cascade of Reactors with High Pressure Gaseous Flow
2.5 Reaction
Separation Process Network with Large Recycle
2.6 Reactor with High
Gain Pressure Controller
2.7 Flow of Incompressible Fluids
2.8 Conclusions
3 Feedback Control of Regular DAE systems
3.1 Introduction
3.2 Preliminaries
3.3 Derivation of State
Space Realizations
3.3.1 Algorithm for reconstruction of algebraic variables
3.3.2 State
space realizations of DAE system
3.4 State Feedback Controller Synthesis
3.4.1 Preliminaries
3.4.2 Problem formulation
3.4.3 Controller synthesis
3.5 Conclusions
4 Feedback Control of Nonregular DAE Systems
4.1 Introduction
4.2 Preliminaries
4.3 Algorithm for Derivation of Equivalent DAE System with Explicit Constraints in x Involving u
4.4 Dynamic State Feedback Regularization
4.5 State
Space Realizations and Controller Synthesis
4.6 Conclusions
5 Control of DAE Systems with Disturbance Inputs
5.1 Introduction
5.2 System Description and Preliminaries
5.3 Algorithm for Identification of Constraints
5.4 State
Space Realizations and Feedforward /State Feedback Control of Regular Systems
5.5 Feedforward /State Feedback Regularization and Control r¿ Nonregular Systems
5.6 Conclusions
6 DAEs and Singularly Perturbed Systems
6.1 Introduction
6.2 Standard vs. Nonstandard Singularly Perturbed Systems
6.3 Derivation of Standard Singularly Perturbed Representation of Rate
Based Models
6.4 Singularly Perturbed Models of Process Networks
7 Simulation Studies of Chemical Process Applications
7.1 A CSTR with heating jacket
7.2 A CSTR with multiple reactions
7.3 Two
Phase Reactor
7.3.1 State
space realization
7.3.2 Controller synthesis
7.3.3 Discussion of controller performance
7.4 Reactor
Condenser Network
7.4.1 Process description and modeling
7.4.2 Feedforward /feedback regularization and state
space realization
7.4.3 Feedforward /feedback controller synthesis and control performance
Bibliography.