Enhancing the EPANET Hydraulic Model through Genetic Algorithm Optimization of Pipe Roughness Coefficients

• Published in: Water resources management Vol. 38; no. 1; pp. 323 - 341
• Main Authors: Shiu, Chia-Cheng, Chung, Chih-Chung, Chiang, Tzuping
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.01.2024; Springer Nature B.V
• Subjects: Algorithms; Atmospheric Sciences; automation; Calibration; Civil Engineering; Coefficients; Correlation coefficient; Correlation coefficients; Earth and Environmental Science; Earth Sciences; energy; Environment; Environmental protection; Genetic algorithms; Geotechnical Engineering & Applied Earth Sciences; Hydraulic models; Hydraulics; Hydrogeology; Hydrology/Water Resources; Leak detection; Mathematical models; Optimization; Pipes; Roughness; Roughness coefficient; Standard error; water; Water distribution; Water distribution systems; Water engineering; Water supply; Water supply systems; Hydraulic model; Water distribution systems; Genetic algorithm; Roughness coefficient
• ISSN: 0920-4741; 1573-1650
• DOI: 10.1007/s11269-023-03672-0

Calibrating hydraulic models for water distribution systems (WDS) is crucial during model-building, particularly in determining the roughness coefficients of pipes. However, using a single roughness coefficient based solely on pipe material can lead to significant variations in frictional head losses. To address this issue and enhance computational efficiency, a genetic algorithm (GA) for optimizing roughness coefficients is presented With the Environmental Protection Agency Network Evaluation Tool (EPANET) hydraulic model. EPANET-GA further considers the spatial characteristics of pipes. We incorporated an automated calibration process and a user graphic interface to analyze the water head pressures of WDS nodes for the Zhonghe-Yonghe Division. The results reveal that the optimized roughness coefficient produces a high correlation coefficient (0.90) with the measured data in a time slot. In addition, a low standard error (8.93%) was achieved for 24-hour predictions. Furthermore, in the Shelin-Beitou Division, spatial characteristics were incorporated as constraints during the calibration process. The EPANET-GA has the potential to serve as an excellent tool for designing, operating, and optimizing water supply networks. It can become an advanced operational solution for administrations, aiding in tasks such as leakage detection and pump energy optimization.