P. Skipworth scite author profile

The selection of flow control device (FCD) location is an essential step for designing real-time control (RTC) systems in sewer networks. In this paper, existing storage volume-based approaches for location selection are compared with hydraulic optimisation-based methods using genetic algorithm (GA). A new site pre-screening methodology is introduced, enabling the deployment of optimisation-based techniques in large systems using standard computational resources. Methods are evaluated for combined sewer overflow (CSO) volume reduction using the CENTAUR autonomous local RTC system in a case study catchment, considering overflows under both design and selected historic rainfall events as well as a continuous 3-year rainfall time series. The performance of the RTC system was sensitive to the placement methodology, with CSO volume reductions ranging between −6 and 100% for design and lower intensity storm events, and between 15 and 36% under continuous time series. The new methodology provides considerable improvement relative to storage-based design methods, with hydraulic optimisation proving essential in relatively flat systems. In the case study, deploying additional FCDs did not change the optimum locations of earlier FCDs, suggesting that FCDs can be added in stages. Thus, this new method may be useful for the design of adaptive solutions to mitigate consequences of climate change and/or urbanisation.

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Developing And Testing A Fuzzy Logic Algorithm To Alleviate The Risk Of Flooding By Controlling A Flow Control Device In A Laboratory Setting

Abdel-Aal

Shepherd

Ostojin

et al. 2017

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CCWI2017: F88 'Optimising a Fuzzy Logic Real-Time Control System for Sewer Flooding Reduction using a Genetic Algorithm'

Shepherd¹,

Mounce²,

Ostojin³

et al. 2017

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Centaur: Real Time Flow Control System For Flood Risk Reduction

Shepherd¹,

Ostojin²,

Mounce³

et al. 2016

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P. Skipworth

Hydraulic optimisation of multiple flow control locations for the design of local real time control systems

Comparing methods to place adaptive local RTC actuators for spill volume reduction from multiple CSOs

Developing And Testing A Fuzzy Logic Algorithm To Alleviate The Risk Of Flooding By Controlling A Flow Control Device In A Laboratory Setting

CCWI2017: F88 'Optimising a Fuzzy Logic Real-Time Control System for Sewer Flooding Reduction using a Genetic Algorithm'

Centaur: Real Time Flow Control System For Flood Risk Reduction

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