Highlights Establish optimization models to obtain the optimal sailing pattern and evasion strategy. Quantitatively analyze the impacts of related factors on ship’s response strategy. Discuss the changes on ship’s evasion strategy selection before and after 2020. Analyze the impact of evasion strategy on ship’s pollution emissions.

    Abstract This paper comprehensively analyzes ship’s response strategy to emission control areas (ECAs). By establishing mixed integer nonlinear programming models, we obtain the optimal sailing pattern and evasion strategy selection. Furthermore, the impacts of different factors on response strategy are discussed, which deepens our understanding of the dynamic adjustment of decisions. The results show that for a total of 420 routes (21 ports) within the North American ECA, ships will adopt evasion strategy on 39.05% routes, and this ratio will decline slightly to 29.05% after 2020. In addition, evasion strategy will increase ship’s total pollution emissions, resulting in less emission reduction.


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    Title :

    Ship’s response strategy to emission control areas: From the perspective of sailing pattern optimization and evasion strategy selection


    Contributors:
    Li, Lingyue (author) / Gao, Suixiang (author) / Yang, Wenguo (author) / Xiong, Xing (author)


    Publication date :

    2019-12-30




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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