S. T. Coelho scite author profile

A model to support decision systems regarding the quantification, location and opening adjustment of control valves in a network system, with the main objective to minimise pressures and consequently leakage levels is developed. This research work aims at a solution that allows simultaneously optimising the number of valves and its location, as well as valves opening adjustments for simulation in an extended period, dependently of the system characteristics. EPANET model is used for hydraulic network analysis and two operational models are developed based on the Genetic Algorithm optimisation method for pressure control, and consequently leakage reduction, since a leak is a pressure dependent function. In these two modules, this method has guaranteed an adequate technique performance, which demands a global evaluation of the system for different scenarios. A case study is presented to show the efficiency of the system by pressure control through valves management.

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Infrastructure Asset Management of Urban Water Systems

Alegre¹,

Coelho²

2012

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Modeling of Chlorine Decay in Drinking Water Supply Systems Using EPANET MSX

Monteiro

Figueiredo

Dias

et al. 2014

Procedia Engineering

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Accounting for the influence of initial chlorine concentration, TOC, iron and temperature when modelling chlorine decay in water supply

Vieira

Coelho

Loureiro

2004

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S. T. Coelho

Pressure Control for Leakage Minimisation in Water Distribution Systems Management

Infrastructure Asset Management of Urban Water Systems

Modeling of Chlorine Decay in Drinking Water Supply Systems Using EPANET MSX

Accounting for the influence of initial chlorine concentration, TOC, iron and temperature when modelling chlorine decay in water supply

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