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Water Resources Management

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01-04-2013

Multi Objective Simulation-Optimization Approach in Pollution Spill Response Management Model in Reservoirs

Authors: Motahareh Saadatpour, Abbas Afshar

Published in: Water Resources Management | Issue 6/2013

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Abstract

In this study, a Pollution Spill Response Management Model (PSRMM) is developed to provide an emergency response on reservoir operation during accidental injection of hazardous material to reservoirs. PSRMM consist of spatial system analyzing (SSA) model, 2D hydrodynamic and water quality simulation model (CE-QUAL-W2), and multi-objective particle swarm optimization (MOPSO) algorithm. CE-QUAL-W2 model is applied for spatial and temporal analysis of water body in simulation routine of PSRMM. Also, in an advanced modeling framework, CE-QUAL-W2 is coupled with MOPSO algorithm to obtain desirable near optimal reservoir operation strategy and/or emergency planning in selective withdrawal framework. The simulation-optimization (SO) routine of PSRMM provides pareto optimum reservoir operation strategy in selective scheme to minimize reservoir cleanup time and to reduce the magnitude and frequency of water quality standard violations. The proposed tool is applied in Ilam reservoir in Iran, as a multipurpose hydraulic project providing water for drinking, irrigation, and flood control during an accident spill of conservative hazardous material. Different scenarios are defined and tested employing the proposed PSRMM for managing accidental spill of conservative pollutant into the reservoir.

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Achterberg EP, Braungardt C, Morley NH, Elbaz-Poulichet F, Leblang M (1999) Impact of Los Frailes mine spill on riverine, estruarine and coastal waters in southern Spaun. Water Res 33(16):3387–3394CrossRef

Beegle-Krause CJ (2001) General NOAA oil modeling environment (GNOME): A new spill trajectory model, International Oil Spill Conference, Tampa, FL

Camp JS, LeBoeuf EJ, Abkowitz MD (2010) Application of an enhanced spill management information system to inland waterways. J Hazard Mater 175:583–592CrossRef

Chaves P, Kojiri T (2007) Deriving reservoir operational strategies considering water quantity and quality objectives by stochastic fuzzy neural networks. Adv Water Resour 30:1329–1341CrossRef

Chaves P, Kojiri T, Yamashiki Y (2003) Optimization of storage reservoir considering water quantity and quality. Hydrol Process 17:2769–2793CrossRef

Coello Coello CA, Lechuga MS (2002) MOPSO: A proposal for multiple objective particle swarm optimization. In Proceedings of the IEEE world congress on computational intelligence (CEC’02),1051–1056

Cole TM, Wells SA (2008) CE-QUAL-W2: A two-dimensional, laterally averaged, hydrodynamic and water quality model. Version 3.6, User Manual, Washington, DC

Deb K (2001) Multi objective optimization using evolutionary algorithms. Wiley, New York

Hayes DF, Labadie JW, Sanders TG, Brown JK (1998) Enhancing water quality in hydropower system operation. Water Resour Res 34(3):471–483CrossRef

Kerachian R, Karamouz M (2007) A stochastic conflict resolution model for water quality management in reservoir—river systems. Adv Water Resour 30:866–882CrossRef

Kraus U, Wiegand J (2006) Long-term effects of the Aznalcóllar mine spill—heavy metal content and mobility in soils and sediments of the Guadiamar river valley (SW Spain). Sci Total Environ 367:855–871CrossRef

Loftis B, Labadie JW, Fontane D (1985) Optimal operation of a system of lakes for quality and quantity. In Proceedings of specially conference on computer applications in water resources, Buffalo, NY

Lytle DA, Peckarsky BL (2001) Spatial and temporal impacts of a diesel fuel spill on stream invertebrates. Freshw Biol 46:693–704CrossRef

Martin PH, LeBoeuf EJ, Daniel EB, Dobbins JP, Abkowitz MD (2004) Development of a GIS-based Spill Management Information System. J Hazard Mater 112:239–252CrossRef

Parsopoulos KE, Vrahatis MN (2002) Particle swarm optimization method in multiobjective. In Proceedings of ACM symposium on applied computing (SAC’02),603–607

Rogowska J, Namieśnik J (2010) Environmental implications of oil spills from shipping accidents. Rev Environ Contam Toxicol 206:95–114CrossRef

Sabat SL, Ali L, Udgata SK (2011) Integrated learning particle swarm optimizer for global optimization. Appl Soft Comput 11(1):574–584CrossRef

Samuels WB, Bahadur P (2006) An integrated water quality security system for emergency. Nuclear Science and Safety in Europe, NATO Secur. through Sci. Ser. 99–112

Shi Y, Eberhart R (1998) A modified particle swarm optimizer. Proceedings of the IEEE International Conference on Evolutionary Computation, Anchorage, Alaska, USA, 69–73

Shirangi E, Kerachian R, Shafai Bajestan M (2008) A simplified model for reservoir operation considering the water quality issues: application of the Young conflict resolution theory. Environ Monit Assess 146:77–89CrossRef

Steg R (2007) Modeling the tongue river watershed with LSPC and CEQUAL-W2. U.S. Environmental Protection Agency

Tripathi PK, Bandyopadhyay S, Pal SK (2007) Multi-Objective Particle Swarm Optimization with time variant inertia and acceleration coefficients. Inf Sci 177:5033–5049CrossRef

Tsai SJ, Sun TY, Liu CC, Hsieh ST, Wu WC, Chiu SY (2010) An improved multi-objective particle swarm optimizer for multi-objective problems. Expert Syst Appl 37:5872–5886CrossRef

Wang PF, Mill T, Martin JL, Wool TA (1997) Fate and transport of Metam spill in Sacramento River. J Environ Eng 123(7):704–712CrossRef

Title: Multi Objective Simulation-Optimization Approach in Pollution Spill Response Management Model in Reservoirs
Authors: Motahareh Saadatpour
Abbas Afshar
Publication date: 01-04-2013
Publisher: Springer Netherlands
Published in: Water Resources Management / Issue 6/2013
Print ISSN: 0920-4741
Electronic ISSN: 1573-1650
DOI: https://doi.org/10.1007/s11269-012-0230-y

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