Sensitivity Analysis of an Agent-Based Model Used to Simulate the Spread of Low-Flow Fixtures for Residential Water Conservation and Evaluate Energy Savings in a Canadian Water Distribution System
Publication: Journal of Water Resources Planning and Management
Volume 145, Issue 1
Abstract
The results of a sensitivity analysis performed to examine the impact of uncertain parameters in an agent-based model (ABM) on the prediction of water use and energy use for pumping and water treatment in a distribution system are presented. The ABM was coupled with a water end-use model and the EPANET2 network solver to simulate word-of-mouth communication between water users and the adoption of water-efficient fixtures that lead to water use and energy savings in distribution systems. Three key ABM parameters (adoption probability, initial penetration rates, and connections per agent) were found to have an important impact on the adoption rate of low-flow fixtures. The parameter values were chosen from relevant literature and the sensitivity analyses determined that the adoption of four specific low-flow fixtures—toilets, showers, washing machines and dishwashers—were estimated to have the potential to reduce water use (9%) and energy use (9%) for pumping and treatment within a mid-sized Canadian water distribution system. The work provides an innovative framework that simulates human interactions and evaluates how these interactions can affect water and, subsequently, energy use in distribution systems.
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©2018 American Society of Civil Engineers.
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Received: Jun 10, 2017
Accepted: Jun 22, 2018
Published online: Oct 31, 2018
Published in print: Jan 1, 2019
Discussion open until: Mar 31, 2019
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