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Water quality–quantity management in river–reservoir system using sustainability‐based simulation‐optimization meta‐model approach

Fariborz Masoumi, Saeid Najjar‐Ghabel, Seyyed Nasser Bashi Azghadi

2021Water and Environment Journal12 citationsDOI

Abstract

Abstract The present research, for the first time, introduces a sustainability‐based water quality–quantity management model in the river–reservoir system. Vulnerability, resiliency, reliability and maximum deficit are the factors that have been considered in the Sustainability Index (S.I.). The two‐dimensional hydrodynamics and water quality simulation model (CE‐QUAL‐W2) is linked to the multi‐objective particle swarm optimization (MOPSO) to develop a simulation‐optimization approach. Also, artificial neural network (ANN) model, substituted for the Ce‐QUAL‐W2 model, reduces the computational time in adaptive dynamically refined routine. The proposed methodology is applied to the Karkheh river–reservoir in Iran. The results showed that using ANN in an adaptive form, replacing CE‐QUAL‐W2, significantly impacts the computational time, considering accuracy in the developed simulation‐optimization model. Moreover, using the S.I. greatly reduces both the severity of failure periods in the water quantity–quality and the sequence of failure periods.

Topics & Concepts

Particle swarm optimizationSustainabilityReliability (semiconductor)Water qualityArtificial neural networkEnvironmental scienceComputer scienceReservoir simulationReliability engineeringEnvironmental engineeringMathematical optimizationEngineeringPetroleum engineeringMathematicsAlgorithmArtificial intelligenceEcologyPower (physics)Quantum mechanicsBiologyPhysicsWater resources management and optimizationWater Systems and OptimizationHydrology and Watershed Management Studies
Water quality–quantity management in river–reservoir system using sustainability‐based simulation‐optimization meta‐model approach | Litcius