ABSTRACT
The relationship between urban water and energy demand is crucial for resource efficiency, sustainability, and environmental conservation. Rapid urbanization, population growth, and climate change necessitate integrated models that capture the complex interdependencies, feedback loops, and trade-offs between water and energy systems. This research addresses this intricate relationship by developing a modified Rotor Hopfield Neural Network (RHNN) Model using input indicators like population data, GDP, water consumption, precipitation, electricity consumption, wastewater discharge, and industrial coal usage. The model is optimized using a modified metaheuristic, called Contracted Thermal Exchange Optimizer (CTEO), resulting in a comprehensive forecast of urban water-energy demand. The model’s superior efficiency is demonstrated by comparing it with other contemporary methods. Upon comparison with alternative approaches, it is clear that the RHNN/CTEO model surpasses them, showcasing a mean relative error of 1.47% for water usage and 2.60% for energy consumption. This leads to an overall average MRE of 2.03%. This research contributes to the existing body of knowledge by offering an advanced model for urban water-energy demand forecasting, providing valuable insights for policymakers, urban planners, and stakeholders in making informed decisions related to resource allocation, infrastructure development, and sustainable urban development.
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No potential conflict of interest was reported by the author(s).
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Ziming Zhao
Ziming Zhao was born in Jilin, Jilin. P.R. China, in 1992. He received the bachelor‘s degree from Yanbian University, P.R. China. He received the master’s degree from Beihua University, P.R. China. Now, he studies in College of Urban governance, Capital University of Economics and Business. His research interest include Urban governance ability, Urban governance system and Urban spatial justice.
Milad Teimourian
Milad Teimourian His research interests are in the application of artificial intelligence and heuristic optimization methods to power system control design, operation and planning and power system restructuring. He has authored and co-authored of 6 books in Engineering area all in Farsi, one book and 7 book chapters in international publishers and more than 14 papers in international journals and conference proceedings. Also, he collaborates with several international journals as reviewer boards and works as editorial committee of three international journals.