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Optimization of Water Quantity Allocation in Multi-Source Urban Water Supply Systems Using Graph Theory

Jinxin Zhang, Xinhai Zhang, Hanze Li, Yazhou Fan, Zhenzhu Meng, Dan Liu, Suli Pan

2024Water18 citationsDOIOpen Access PDF

Abstract

The optimization of urban multi-source water supply systems is essential for addressing the growing challenges of water allocation, cost management, and system resilience in modern cities. This study introduces a graph-theory-based optimization model to analyze the structural and operational dynamics of urban water supply systems, incorporating constraints such as water quality, pressure, and system connectivity. Using Lishui City as a case study, the model evaluates three water allocation plans to meet the projected 2030 water demand. Advanced algorithms, including Floyd’s shortest path algorithm and the GA-COA-SA hybrid optimization algorithm, were employed to address constraints such as pipeline pressure, water quality attenuation, and nonlinear flow dynamics. Results indicate a 1.4% improvement in cost-effectiveness compared to the current allocation strategy, highlighting the model’s capability to enhance efficiency. Among the evaluated options, Plan 2 emerges as the most cost-effective solution, achieving a supply capacity of 4.5920 × 105 m3/d with the lowest annual cost of 5.7015 × 107 yuan, highlighting the model’s capability to improve both efficiency and resilience. This study prioritizes cost-efficiency tailored to regional challenges, distinguishing itself from prior research that emphasized redundancy and water quality analysis. The findings demonstrate the potential of graph-theoretic approaches combined with advanced optimization techniques to enhance decision-making for sustainable urban water management.

Topics & Concepts

Water supplyWater sourceGraph theoryEnvironmental scienceGraphWater resource managementMathematical optimizationComputer scienceEnvironmental engineeringMathematicsTheoretical computer scienceCombinatoricsWater Systems and OptimizationWater resources management and optimizationEnergy Efficient Wireless Sensor Networks
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