Cover -- Preface -- Table of Contents -- 1 Introduction -- 2 Modelling of Sewer Network Flow -- 2.1 Introduction -- 2.2 Accurate Model of Sewer Networks -- 2.3 Simulation Tools for Sewer Networks -- 2.4 Simulation Program?? KANSIM -- 2.5 Simplified Model of Sewer Networks -- 3 Flow Control in Sewer Networks -- 3.1 Control Objectives -- 3.2 Multilayer Control System -- 3.3 Studies of Water Resource Systems -- 3.4 The Pursued Approach -- 4 Nonlinear Optimal Control -- 4.1 Performance Criterion -- 4.2 Mathematical Problem Formulation -- 4.3 Solution Algorithm -- 4.4 Rolling Horizon -- 5 Multivariable Feedback Control -- 5.1 General Problem Considerations -- 5.2 Linear-Quadratic Formulation of the Sewer Network Control Problem. -- 5.3 Multivariable Control Law -- 5.4 Computational Effort -- 6 Application Example -- 6.1 Application Network -- 6.2 External Inflows -- 6.3 Nonlinear Optimal Control -- 6.4 Linear-Quadratic Formulation -- 6.5 Simulation -- 7 Simulation Results -- 7.1 No-Control Case -- 7.2 Nonlinear Optimal Control -- 7.3 Multivariable Regulator -- 7.4 Comparison Between Nonlinear Optimal Control and Multivariable Feedback Control -- 7.5 Concluding Remarks -- 8 Conclusions and Future Research -- References -- Author Profiles
Summary
"Recent years have seen a very marked increase in the desire to protect the environment from any and all malign influences. The maintenance or restoration of water quality is a vital part of that protection. A sine qua non of control system development for modern sewer networks is therefore the preservation of the water system around a network's outflow(s). Several approaches have been proposed for the optimisation of sewage control and Optimal Real-time Control of Sewer Networks provides a comparative synthesis of a central sewer network flow control based on two of these: nonlinear-optimal and multivariable-feedback control."--Jacket
Bibliography
Includes bibliographical references (pages 151-156) and index