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Evaluating sustainable water management strategies using TOPSIS and fuzzy TOPSIS methods

Fang Han, Rami N. Alkhawaji, M. Mehdi Shafieezadeh

2024Applied Water Science59 citationsDOIOpen Access PDF

Abstract

This study evaluates sustainable water management strategies using TOPSIS and Fuzzy TOPSIS (FTOPSIS) to address global water scarcity by comparing rainwater harvesting, water recycling, and desalination across five criteria: water efficiency, cost-effectiveness, environmental impact, social equity, and technological feasibility. The results show Rainwater Harvesting as the most balanced option with a relative closeness value of $${C}_{i}^{+}$$ =0.640, excelling in social equity and environmental sustainability. Water Recycling ranks closely behind ( $${C}_{i}^{+}$$ =0.608), highlighting its adaptability and technological feasibility, while Desalination, though highly efficient, is hindered by lower cost-effectiveness ( $${C}_{i}^{+}$$ =0.578). By integrating TOPSIS and FTOPSIS, the study addresses uncertainties and subjective criteria, providing a robust multi-dimensional assessment framework for resource management. This methodology aids decision-makers in identifying strategies that align with sustainable development goals and adapt to regional priorities. Future work can expand this framework to include stakeholder engagement and policy factors, enhancing water management strategies for resilient, long-term solutions.

Topics & Concepts

TOPSISIndustrial and production engineeringFuzzy logicComputer scienceOperations researchEngineeringArtificial intelligenceElectrical engineeringWater resources management and optimizationWater-Energy-Food Nexus StudiesWater Resources and Sustainability
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