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Decision making of oil spill contingency options with fuzzy comprehensive evaluation

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Abstract

Accidental oil spills are one of major sources to affect ecologically and economically sensitive marine areas and shorelines. The aim of decision making during oil spill response management is to minimize pollution effects in coastal areas, once spills occur. However, not all coastal areas at risk can be saved due to a limitation of equipments or options. Thus, often preferences between different coastal areas or uses, respectively, have to be made in an operational way. Such a management issue is here taken as a multi-group multi-criteria decision making problem involving a variety of stakeholders and natural dynamic environments. For solving such a complex problem, this paper targets efforts to integrate a second order fuzzy comprehensive evaluation (FCE) method and consensus facilitating techniques into computerized group decision support system. Such a DSS takes into account the influence of multiple criteria and the knowledge of different interested groups and simulates a consensus based decision process. Through a case study of the Prestige accident off the Spanish coast in 2002, it is demonstrated that the model provides a simple, effective and adaptable method to solve operational management problems related to complex human nature interactions as realized during oil spill management. Moreover, a series of analyses explore potentials and limitations of the FCE for further applications in the field of multi-group multi-criteria decision-making.

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References

  • Aamo OM, Reed M, Lewis A (1997) Regional Contingency Planning Using the OSCAR Oil Spill Contingency and Response Model. In: Proceedings of the 20th Arctic and Marine Oil Spill Program. AMOP Technical Seminar, Vancouver, Canada

  • Carlsson C (1999) Soft computing: Modelling Technologies and Intelligent Systems Nimitrack. In: Proceedings of the 32nd Hawaii International Conference on System Sciences

  • Gurocak ER, Whittlesey NK (1998) Multiple criteria decision-making: a case study of the Columbia River salmon recovery plan. Environmental and Resource Economics 12:479–495

    Article  Google Scholar 

  • ITOPF: International Tanker Owners Pollution Federation Limited. http://www.itopf.com/stats.html

  • Ji S, Li X, Du R (2000a) Tolerance synthesis using second-order fuzzy comprehensive evaluation and genetic algorithm. International Journal of Production Research 38:3471–3483

    Article  Google Scholar 

  • Ji S, Li X, Ma Y (2000b) Optimal tolerance allocation based on fuzzy comprehensive evaluation and genetic algorithm. International Journal of Advanced Manufacturing Technology 16:451–468

    Article  Google Scholar 

  • Lahdelma R, Salminen P, Hokkanen J (2000) Using multicriteria methods in environmental planning and management. Environmental Management 26:595–605

    Article  Google Scholar 

  • Liu X, Wirtz KW (2005) Consensus Oriented, Fuzzified Decision Support for Oil Spill Contingency Management. Journal of Hazardous Materials 134(1–3):27–35

    Google Scholar 

  • Lootsma FA, Boonekamp PGM, Cook RM, van Oostvoorn F (1990) Choice of a long-term strategy for the national electricity supply via scenario analysis and multi-criteria analysis. European Journal of Operational Research 48:189–203

    Article  Google Scholar 

  • Massam BH (1993) The Right Place: Shared Responsibility and the Location of Public Facilities. Longman Group, Uk Limited

  • Ozernoy V (1984) Generating alternatives in multiple criteria decision making problems: A survey. In: Haimes Y, Chankong V (eds) Decision making with multiple objectives. Springer-Verlag, NY

    Google Scholar 

  • Poitras J, Bowen R, Wiggin J (2003) Challenges to the use of Consensus Building in Integrated Coastal Management. Ocean and Coastal Management 46:323–333

    Article  Google Scholar 

  • Reed M, Aamo OM, Dowing K (1996) Calibration and eesting of IKU's oil spill contingency and response (OSCAR) model system. Proceedings of the 1996 Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, pp 689–726

  • Rowe DG (2004) Breaking up is Hard to do. Nature 429:800–802

    Article  Google Scholar 

  • Stansbury J, Member PE, Bogardi I, Stakhiv EZ (1999) Risk-Cost Optimization Under Uncertainty for Dredged Material Disposal. Journal of Water Resource Planning and Management 125:342–351

    Article  Google Scholar 

  • Triantaphyllou E (2000) Multi-Criteria Decision Making Methods: A Comparative Study. Kuwer Academic Publishers, Dordrechts, Boston, London.

    Google Scholar 

  • van Moeffaert D (2002) Multi-Criteria Decision Aid in Sustainable Urban Water Management. Master Thesis. Royal Institute of Technology, Stockholm, Sweden

  • Vasseur L, Lafrance L, Ansseau C, Renaud D, Morin D, Audet T (1997) Advisory committee: a powerful tool for helping decision makers in environmental issues. Environmental Management 21:359–365

    Article  Google Scholar 

  • William AT, Ergin A, Micallef A, Phillips MR (2004) South Wales Coastal Scenery: An Innovative Method of Evaluation. In: Proceeding of the Littoral 2004, A Joined EUCC and EUUROCOAST Conference, Aberdeen, UK.

  • Wirtz KW, Adam S, Liu X, Baumburger N (2004) Robustness Against Different Implementation of Uncertainty in a Contingency DSS: the Prestige oil spill accident revised. In: Pahl-Wostl C (Hrsg.) Proceeding of the Int. Environmental Modelling and Software Society Conference 2004. Osnabruek

  • Wirtz KW, Baumberger N, Adam S, Liu X (2006) Oil Spill Impact Minimization Under Uncertainty: Evaluating Contingency Simulations of the Prestige Accident. Ecological Economics (in press).

  • Yu Y, Wang B, Wang G, Li W (2004) Multi-person multiobjective fuzzy decision-making model for reservoir flood control operation. Water Resources Management 18:111–124

    Article  Google Scholar 

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Liu, X., Wirtz, K.W. Decision making of oil spill contingency options with fuzzy comprehensive evaluation. Water Resour Manage 21, 663–676 (2007). https://doi.org/10.1007/s11269-006-9031-5

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  • DOI: https://doi.org/10.1007/s11269-006-9031-5

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