Water Industry Systems: Modelling and Optimization Applications, Book 2Dragan Savic, Godfrey Walters These conference proceedings reflect the current and future roles of modeling and optimization in the description and management of water industry systems. Balanced views of academic and industry experts from around the world are included in the two volumes of papers. Insights are provided into the experiences of leading researchers and practitioners in applying modelling and optimization to the management of water quantity and quality. The topics covered are: advanced modelling techniques, risk management, process control and optimization, with particular emphasis on the development and implementation of emerging technologies. Application areas include both water supply and waste water disposal. |
Contents
Influence of inflow prediction on performance of water | 39 |
Computation of flow distribution in a pipe network 53 333 | 53 |
Extending the intranet to mobile working | 67 |
Copyright | |
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Common terms and phrases
analysis applied approach average Balhannah booster stations burst calculated calibration components configuration constraints cost data mining decision variables demand developed diameter disinfectant dynamic Engineering equation example factors failure feeder pipe FEFLOW Figure flood flow formulation fuzzy fuzzy logic genetic algorithm Geographic Information System global groundwater hydraulic identified implementation improve inflow information systems interceptor sewer interface leakage linear programming mains maximum meters methods minimise minimum mobile Module nodes objective function obtained optimal control optimisation optimization problems parameters penalty period pipe network planning prediction pressure procedure pump operation reliability repair Research reservoir SCADA scheduling schematics simulated annealing solved Srbac storage strategies tank techniques Thames Water trigger levels values valves wastewater water distribution networks water distribution systems water network water quality water quality model Water Resources water supply network water supply system zones