Optimizing hazardous materials transportation network: A bi-level programming approach considering road blocking

IF 3.6 3区工程技术 Q2 ENGINEERING, CHEMICAL

Journal of Loss Prevention in The Process Industries Pub Date : 2024-10-03 DOI:10.1016/j.jlp.2024.105451

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引用次数: 0

Abstract

Road transportation serves as the primary mode for hazardous materials (hazmat) transportation in China. However, the current academic literature lacks sufficient exploration of optimizing transportation networks through road-blocking strategies. This research proposed a bi-level programming model, where the government acts as the decision-maker in the upper-level programming, and the transportation enterprise operates at the lower level. Road-blocking strategies are employed by the government to mitigate transportation risks. We developed exact solution algorithms for the upper programming and employed genetic algorithms for the lower model separately. Finally, using a real road network in Beijing as a case study, we showcased the effectiveness of our approach. We computed government decision schemes and enterprise transportation routes for 13 scenarios, and conducted a further discussion and analysis on scenarios with road service levels of 83% and 80.9%. The method and results presented in our study can adeptly dissect the transportation of hazmat in city areas, offering insightful perspectives and robust support for devising more streamlined management strategies.

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优化危险品运输网络：考虑道路阻塞的双层方案编制方法

公路运输是中国危险品运输的主要方式。然而，目前的学术文献缺乏对通过道路阻断策略优化运输网络的充分探讨。本研究提出了一个双层规划模型，即政府作为上层规划的决策者，运输企业在下层运作。政府采用道路封锁策略来降低运输风险。我们为上层程序设计开发了精确求解算法，并为下层模型分别采用了遗传算法。最后，我们以北京的真实路网为案例，展示了我们方法的有效性。我们计算了 13 种情景下的政府决策方案和企业运输路线，并对道路服务水平为 83% 和 80.9% 的情景进行了进一步的讨论和分析。我们在研究中提出的方法和结果能够很好地剖析城市区域的危险品运输，为制定更合理的管理策略提供了深刻的视角和有力的支持。

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来源期刊

Journal of Loss Prevention in The Process Industries 工程技术-工程：化工

CiteScore

7.20

自引率

14.30%

发文量

226

审稿时长

52 days

期刊介绍： The broad scope of the journal is process safety. Process safety is defined as the prevention and mitigation of process-related injuries and damage arising from process incidents involving fire, explosion and toxic release. Such undesired events occur in the process industries during the use, storage, manufacture, handling, and transportation of highly hazardous chemicals.