Scalable Pareto set generation for multiobjective co-design problems in water distribution networks: a continuous relaxation approach

Pecci, Filippo; Abraham, Edo; Stoianov, Ivan

doi:10.1007/s00158-016-1537-8

Cited by 23 publications

(12 citation statements)

References 38 publications

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“…In particular, it is possible to prove that Problem (3) satisfies the above constraint qualification at every feasible point except a set of measure zero, once a small perturbation is applied to the optimization constraints; for the sake of brevity we omit the proof which can be found in the Appendix to [33].…”

Section: Definition 1 [35 Definition 23] a Feasible Point X For (3)mentioning

confidence: 99%

Penalty and relaxation methods for the optimal placement and operation of control valves in water supply networks

2016

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In this paper, we investigate the application of penalty and relaxation methods to the problem of optimal placement and operation of control valves in water supply networks, where the minimization of average zone pressure is the objective. The optimization framework considers both the location and settings of control valves as decision variables. Hydraulic conservation laws are enforced as nonlinear constraints and binary variables are used to model the placement of control valves, resulting in a mixed-integer nonlinear program. We review and discuss theoretical and algorithmic properties of two solution approaches. These include penalty and relaxation methods that solve a sequence of nonlinear programs whose stationary points converge to a stationary point of the original mixed-integer program. We implement and evaluate the algorithms using a benchmarking water supply network. In addition, the performance of different update strategies for the penalty and relaxation parameters are investigated under multiple initial conditions. Practical recommendations on the numerical implementation are provided.

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Section: Definition 1 [35 Definition 23] a Feasible Point X For (3)mentioning

confidence: 99%

Penalty and relaxation methods for the optimal placement and operation of control valves in water supply networks

2016

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“…This is achieved by the optimal location of both valves and CUs. As expected, the number of possible combinations CU/boundary valves grows combinatorially with the pipe extension and the network meshing configuration [2,3], which makes unfeasible any manual design and makes necessary the use of mathematical and computational techniques.…”

Section: Introductionmentioning

confidence: 90%

A Novel Water Supply Network Sectorization Methodology Based on a Complete Economic Analysis, Including Uncertainties

Campbell

Izquierdo

Montalvo³

et al. 2016

Water

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Abstract:The core idea behind sectorization of Water Supply Networks (WSNs) is to establish areas partially isolated from the rest of the network to improve operational control. Besides the benefits associated with sectorization, some drawbacks must be taken into consideration by water operators: the economic investment associated with both boundary valves and flowmeters and the reduction of both pressure and system resilience. The target of sectorization is to properly balance these negative and positive aspects. Sectorization methodologies addressing the economic aspects mainly consider costs of valves and flowmeters and of energy, and the benefits in terms of water saving linked to pressure reduction. However, sectorization entails other benefits, such as the reduction of domestic consumption, the reduction of burst frequency and the enhanced capacity to detect and intervene over future leakage events. We implement a development proposed by the International Water Association (IWA) to estimate the aforementioned benefits. Such a development is integrated in a novel sectorization methodology based on a social network community detection algorithm, combined with a genetic algorithm optimization method and Monte Carlo simulation. The methodology is implemented over a fraction of the WSN of Managua city, capital of Nicaragua, generating a net benefit of 25,572 $/year.

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“…valve closures) to maximize self-cleaning capacity in (1) is a mixed-integer nonlinear programming (MINLP) problem. These class of optimization problems for a WDS are especially challenging because they combine large number of discrete decision variables with the difficulties of handling non-convex nonlinear hydraulic constraints (Pecci et al 2016). In addition, the problem in (1) has an objective function that is non-smooth at ±v min , resulting in unbounded gradients around ±v min .…”

Section: Problem Formulation: Increasing Flow Velocity Through Topolomentioning

confidence: 99%

Decreasing the Discoloration Risk of Drinking Water Distribution Systems through Optimized Topological Changes and Optimal Flow Velocity Control

Abraham

Blokker

Stoianov

2018

J. Water Resour. Plann. Manage.

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In this paper, a new mathematical framework is proposed for maximising the selfcleaning capacity (SCC) of drinking water distribution systems by controlling diurnal peak flow velocities in pipes under normal operation. This is achieved through an optimal change of the network connectivity (topology). We propose an efficient algorithm for network analysis of valve closures, which allows enforcing favourable changes in flow velocities for maximising the SCC by determining an optimal set of links to isolate in forming a more branched network, while satisfying hydraulic and regulatory pressure constraints at demand nodes. Multiple stochastic demands from an end-use demand model are generated to test the robustness in the improved SCC for the modified network connectivity under changing demand. We use an operational network model to demonstrate the efficacy of the proposed approach.

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Scalable Pareto set generation for multiobjective co-design problems in water distribution networks: a continuous relaxation approach

Cited by 23 publications

References 38 publications

Penalty and relaxation methods for the optimal placement and operation of control valves in water supply networks

Penalty and relaxation methods for the optimal placement and operation of control valves in water supply networks

A Novel Water Supply Network Sectorization Methodology Based on a Complete Economic Analysis, Including Uncertainties

Decreasing the Discoloration Risk of Drinking Water Distribution Systems through Optimized Topological Changes and Optimal Flow Velocity Control

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