Ruben Menke scite author profile

Water utilities can achieve significant savings in operating costs by optimising pump scheduling to improve efficiency and shift electricity consumption to low-tariff periods. Due to the complexity of the optimal scheduling problem, heuristic methods that cannot guarantee global optimality are often applied. This paper investigates formulations of the pump scheduling problem solved using a branch and bound method. Piecewise linear component approximations outperform non-linear approximations within application driven accuracy bounds and demand uncertainties. It is shown that the reduction of symmetry through the grouping of pumps significantly reduces the computational effort, whereas loops in the network have the opposite effect. The computational effort of including convex, non-linear pump operating, and maintenance cost functions is investigated. Using case studies, it is shown that linear and fixed-cost functions can be used to find schedules which, when simulated in a full hydraulic simulation, have performances that are within the solver optimality gap and the uncertainty of demand forecasts.

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Extending the Envelope of Demand Response Provision though Variable Speed Pumps

Menke

Abraham

Parpas

et al. 2017

Procedia Engineering

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Approximation of System Components for Pump Scheduling Optimisation

Menke

Abraham

Parpas

et al. 2015

Procedia Engineering

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© 2015 The Authors. Published by Elsevier Ltd.The operation of pump systems in water distribution systems (WDS) is commonly the most expensive task for utilities with up to 70% of the operating cost of a pump system attributed to electricity consumption. Optimisation of pump scheduling could save 10-20% by improving efficiency or shifting consumption to periods with low tariffs. Due to the complexity of the optimal control problem, heuristic methods which cannot guarantee optimality are often applied. To facilitate the use of mathematical optimisation this paper investigates formulations of WDS components. We show that linear approximations outperform non-linear approximations, while maintaining comparable levels of accuracy

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Modeling Variable Speed Pumps for Optimal Pump Scheduling

Menke

Abraham

Stoianov

2016

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Ruben Menke

Demonstrating demand response from water distribution system through pump scheduling

Exploring Optimal Pump Scheduling in Water Distribution Networks with Branch and Bound Methods

Extending the Envelope of Demand Response Provision though Variable Speed Pumps

Approximation of System Components for Pump Scheduling Optimisation

Modeling Variable Speed Pumps for Optimal Pump Scheduling

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