Improving nonlinear optimization algorithms for BMP implementation in a combined sewer system

Anas Sebti; Mauricio Carvallo Aceves; Saad Bennis; Musandji Fuamba

doi:10.1061/(ASCE)WR.1943-5452.0000669

Improving nonlinear optimization algorithms for BMP implementation in a combined sewer system

Anas Sebti
, Mauricio Carvallo Aceves
, Saad Bennis
, Musandji Fuamba

Polytechnique Montréal

Research output: Contribution to journal › Journal Article › peer-review

20 Citations (Scopus)

Abstract

Implementing best management practices (BMP) on watersheds could help mitigate the effects of urbanization and climate change on the hydrological cycle. Techniques such as retention ponds, rain gardens, infiltration trenches, and green roofs vary in technical performance, space requirements, and cost. The trade-offs between these present a challenge toward BMP selection and placement, therefore requiring optimization. Three optimization methods were applied for BMP implementation on a combined sewer: linear programming (LP); genetic algorithm (GA); and simulated annealing (SA). LP served as a reference point. The SA solution was only marginally better, 4.7% cheaper, whereas GA's solution was 17.9% more expensive after computations froze at a local minimum; both methods required approximately 18 h of computational time. A second round of optimization used the solution from LP as a starting point. This modification significantly increased the performance of GA, providing a new solution that was 14% cheaper than LP, with reduced computational times for both GA and SA. SA's solution, though still cheaper than that of LP, was 3.9% more expensive than the one previously obtained with SA.

Original language	English
Article number	04016030
Journal	Journal of Water Resources Planning and Management
Volume	142
Issue number	9
DOIs	https://doi.org/10.1061/(ASCE)WR.1943-5452.0000669
Publication status	Published - 1 Sept 2016

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy
SDG 11 Sustainable Cities and Communities
SDG 12 Responsible Consumption and Production

!!!Keywords

Best management practices (BMPs)
Detention
Drainage network
Genetic algorithm
Hydraulic performance
Infiltration
Linear programming
Overflow
Simulated annealing

Access to Document

10.1061/(ASCE)WR.1943-5452.0000669

Cite this

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title = "Improving nonlinear optimization algorithms for BMP implementation in a combined sewer system",

abstract = "Implementing best management practices (BMP) on watersheds could help mitigate the effects of urbanization and climate change on the hydrological cycle. Techniques such as retention ponds, rain gardens, infiltration trenches, and green roofs vary in technical performance, space requirements, and cost. The trade-offs between these present a challenge toward BMP selection and placement, therefore requiring optimization. Three optimization methods were applied for BMP implementation on a combined sewer: linear programming (LP); genetic algorithm (GA); and simulated annealing (SA). LP served as a reference point. The SA solution was only marginally better, 4.7\% cheaper, whereas GA's solution was 17.9\% more expensive after computations froze at a local minimum; both methods required approximately 18 h of computational time. A second round of optimization used the solution from LP as a starting point. This modification significantly increased the performance of GA, providing a new solution that was 14\% cheaper than LP, with reduced computational times for both GA and SA. SA's solution, though still cheaper than that of LP, was 3.9\% more expensive than the one previously obtained with SA.",

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AU - Bennis, Saad

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N2 - Implementing best management practices (BMP) on watersheds could help mitigate the effects of urbanization and climate change on the hydrological cycle. Techniques such as retention ponds, rain gardens, infiltration trenches, and green roofs vary in technical performance, space requirements, and cost. The trade-offs between these present a challenge toward BMP selection and placement, therefore requiring optimization. Three optimization methods were applied for BMP implementation on a combined sewer: linear programming (LP); genetic algorithm (GA); and simulated annealing (SA). LP served as a reference point. The SA solution was only marginally better, 4.7% cheaper, whereas GA's solution was 17.9% more expensive after computations froze at a local minimum; both methods required approximately 18 h of computational time. A second round of optimization used the solution from LP as a starting point. This modification significantly increased the performance of GA, providing a new solution that was 14% cheaper than LP, with reduced computational times for both GA and SA. SA's solution, though still cheaper than that of LP, was 3.9% more expensive than the one previously obtained with SA.

AB - Implementing best management practices (BMP) on watersheds could help mitigate the effects of urbanization and climate change on the hydrological cycle. Techniques such as retention ponds, rain gardens, infiltration trenches, and green roofs vary in technical performance, space requirements, and cost. The trade-offs between these present a challenge toward BMP selection and placement, therefore requiring optimization. Three optimization methods were applied for BMP implementation on a combined sewer: linear programming (LP); genetic algorithm (GA); and simulated annealing (SA). LP served as a reference point. The SA solution was only marginally better, 4.7% cheaper, whereas GA's solution was 17.9% more expensive after computations froze at a local minimum; both methods required approximately 18 h of computational time. A second round of optimization used the solution from LP as a starting point. This modification significantly increased the performance of GA, providing a new solution that was 14% cheaper than LP, with reduced computational times for both GA and SA. SA's solution, though still cheaper than that of LP, was 3.9% more expensive than the one previously obtained with SA.

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KW - Detention

KW - Drainage network

KW - Genetic algorithm

KW - Hydraulic performance

KW - Infiltration

KW - Linear programming

KW - Overflow

KW - Simulated annealing

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ER -

Improving nonlinear optimization algorithms for BMP implementation in a combined sewer system

Abstract

UN SDGs

!!!Keywords

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