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Process control : a practical approach /
This expanded new edition is specifically designed to meet the needs of the process industry, and closes the gap between theory and practice.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Chichester, West Sussex, United Kingdom :
Wiley,
2016.
|
| Edición: | Second edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Title Page ; Copyright Page; Contents; Preface; About the Author; Chapter 1 Introduction; Chapter 2 Process Dynamics; 2.1 Definition; 2.2 Cascade Control; 2.3 Model Identification; 2.4 Integrating Processes; 2.5 Other Types of Process; 2.6 Robustness; Chapter 3 PID Algorithm; 3.1 Definitions; 3.2 Proportional Action; 3.3 Integral Action; 3.4 Derivative Action; 3.5 Versions of Control Algorithm; 3.6 Interactive PID Controller; 3.7 Proportional-on-PV Controller ; 3.8 Nonstandard Algorithms; 3.9 Tuning; 3.10 Ziegler-Nichols Tuning Method ; 3.11 Cohen-Coon Tuning Method.
- 3.12 Tuning Based on Penalty Functions3.13 Manipulated Variable Overshoot; 3.14 Lambda Tuning Method; 3.15 IMC Tuning Method; 3.16 Choice of Tuning Method; 3.17 Suggested Tuning Method for Self-Regulating Processes ; 3.18 Tuning for Load Changes; 3.19 Tuning for SP Ramps; 3.20 Tuning for Unconstrained MV Overshoot; 3.21 PI Tuning Compared to PID Tuning; 3.22 Tuning for Large Scan Interval; 3.23 Suggested Tuning Method for Integrating Processes; 3.24 Measure of Robustness; 3.25 Implementation of Tuning; 3.26 Tuning Cascades; 3.27 Loop Gain; 3.28 Adaptive Tuning; 3.29 Initialisation.
- 3.30 Anti-Reset Windup 3.31 On-Off Control ; Chapter 4 Level Control; 4.1 Use of Cascade Control; 4.2 Parameters Required for Tuning Calculations; 4.3 Tight Level Control; 4.4 Averaging Level Control; 4.5 Error-Squared Controller ; 4.6 Gap Controller; 4.7 Impact of Noise on Averaging Control; 4.8 Potential Disadvantage of Averaging Level Control; 4.9 General Approach to Tuning; 4.10 Three-Element Level Control ; Chapter 5 Signal Conditioning; 5.1 Instrument Linearisation; 5.2 Process Linearisation; 5.3 Control of pH; 5.4 Constraint Conditioning.
- 5.5 Pressure Compensation of Distillation Tray Temperature5.6 Compensation of Gas Flow Measurement; 5.7 Filtering; 5.8 Exponential Filter; 5.9 Nonlinear Exponential Filter; 5.10 Moving Average Filter; 5.11 Least Squares Filter; 5.12 Tuning the Filter; 5.13 Control Valve Characterisation; 5.14 Equal Percentage Valve; 5.15 Split-Range Valves ; Chapter 6 Feedforward Control; 6.1 Ratio Algorithm; 6.2 Bias Algorithm; 6.3 Deadtime and Lead-Lag Algorithms ; 6.4 Tuning; 6.5 Laplace Derivation of Dynamic Compensation; Chapter 7 Deadtime Compensation; 7.1 Smith Predictor; 7.2 Internal Model Control.
- 7.3 Dahlin AlgorithmChapter 8 Multivariable Control; 8.1 Constraint Control; 8.2 SISO Constraint Control; 8.3 Signal Selectors; 8.4 Relative Gain Analysis; 8.5 Niederlinski Index; 8.6 Condition Number; 8.7 Steady State Decoupling; 8.8 Dynamic Decoupling; 8.9 MPC Principles; 8.10 Parallel Coordinates; 8.11 Enhanced Operator Displays; 8.12 MPC Performance Monitoring; Chapter 9 Inferentials and Analysers; 9.1 Inferential Properties; 9.2 Assessing Accuracy; 9.3 Laboratory Update of Inferential; 9.4 Analyser Update of Inferential; 9.5 Monitoring On-Stream Analysers ; Chapter 10 Combustion Control.