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
Authored by Alexandre Tourigny, Y Filion
Date Published: 2019
DOI: 10.1061/(asce)wr.1943-5452.0001015
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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 fixturestoilets, showers, washing machines and dishwasherswere
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. (C)
2018 American Society of Civil Engineers.
Tags
Agent-based modeling
Households
Management
diffusion
Energy
Strategies
Consumption
Sensitivity
analysis
Reductions
Water distribution systems