Abstract With sustained high bunker prices, new methods for choosing optimal bunkering ports to save total operating costs have appeared in research involving liner shipping companies. Generally speaking, the bunkering port selection problem is solved by utilizing ship planning software. However, this can only work optimally when ship arrivals can be forecasted rather accurately, and its primary limitation is that it ignores unforeseen circumstances in actual operations. Hitherto, there are no fixed rules for bunkering port selection. To address this problem, this chapter develops a benchmarking framework that evaluates bunkering ports’ performances within regular liner routes in order to choose optimal ones. Bunkering port selection is typically a multi-criteria group decision problem, and in many practical situations, decision makers cannot form proper judgments using incomplete and uncertain information in an environment with exact and crisp values; thus, fuzzy numbers are proposed in this chapter. A hybrid Fuzzy-Delphi-TOPSIS based methodology that divides the benchmarking into three stages is employed to support the entire framework. Additionally, a sensitivity analysis is performed. The proposed framework can enable decision makers to better understand the complex relationships of the relevant key performance factors and assist managers in comprehending the present strengths and weaknesses of their strategies.


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    Title :

    The Use of the Hybrid Fuzzy-Delphi-TOPSIS Approach in Identifying Optimal Bunkering Ports for Shipping Lines


    Contributors:
    Wang, Ying (author) / Yeo, Gi-Tae (author) / Ng, Adolf K. Y. (author)


    Publication date :

    2017-10-25


    Size :

    22 pages





    Type of media :

    Article/Chapter (Book)


    Type of material :

    Electronic Resource


    Language :

    English






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