面向环境的集装箱卡车中长期采购计划建模——以长江港口为例

IF 2.7 4区 工程技术 Q2 TRANSPORTATION SCIENCE & TECHNOLOGY Transportation Safety and Environment Pub Date : 2022-12-21 DOI:10.1093/tse/tdac043
Shuai Li, Weijia Wu, Xiaofeng Ma, Ming Zhong, M. Safdar
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引用次数: 4

摘要

运输部门是造成人为温室气体排放的最重要因素。特别是,主要由化石燃料发动机提供动力的海上运输占世界货运量的90%以上,排放量占全球二氧化碳排放量的3%。中国是世界上最大的二氧化碳排放国,在缓解全球气候变化方面发挥着关键作用。为了解决这一紧迫问题,本研究分析了港口的吞吐量、当前卡车数量及其在集装箱卡车采购过程中的排放量。而以往关于集装箱卡车采购计划的研究大多集中在卡车的价格和港口需求上。本研究的目的是使用优化技术(如区间不确定性规划模型)将集装箱卡车排放转化为社会成本,最大限度地降低港口内陆运输的总成本。本研究以长江港为个案。本研究设计了两个场景。(i) 基本情景(照常营业(BAU))用于量化污染物排放和系统成本之间的关系。在基本情景中,规划期内不使用环境控制设施,也不需要购买新能源集装箱卡车(ii)三个规划期的预期情景,即(情景A)。在情景A中,要求在整个规划期内,排放水平保持在与第一个规划期相同的水平。通过求解上述模型,分析了港区内所有卡车类型的数量、系统成本、集装箱吞吐量和卡车排放量。结果表明,如果在未来9年内不实施减排控制措施,港区污染物的增长率可能超过20%。此外,研究结果清楚地表明,通过购买新能源卡车和限制化石燃料(柴油)卡车的数量,可以减少卡车的排放。这项研究也有助于最大限度地减少与港口规划和管理相关的系统成本。
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Modeling medium and long term purchasing plans for environment-oriented container truck: a case study of yangtze river port
Transportation sector is the most significant contributor to anthropogenic greenhouse gas (GHG) emissions. Particularly, maritime transportation, which is predominantly powered by fossil-fuel engines, accounts for more than 90% of world freight movement and emits 3% of global carbon dioxide (CO2) emissions. China is the world's largest emitter of CO2 and plays a key role in mitigating global climate change. In order to tackle this pressing concern, this study analyzes the port's throughput, the current number of trucks, and their emissions during the container truck purchasing process. While the previous studies about container truck purchasing plans mostly focused on the trucks' price and port needs. The objective of this study is to minimize the total cost of a port's inland transportation using optimization technique such as the interval uncertainty planning model to convert container truck emissions into social costs. This study considers the port of Yangtze as a case study. This study has designed two scenarios. (i) The base scenario (business-as-usual (BAU)) is used to quantify the relationship between pollutant emissions and system cost. In the base scenario, no environmental control facilities are used during the planning period, and there is no need to purchase new energy container trucks (ii) Expected scenario, referred to as (scenario A), for three planning periods. In scenario A, the emissions levels are required to remain at the same level as the first planning period during the whole planning period. By solving the above model, the number of all truck types, system cost, container throughput, and truck emissions in the port area were analyzed. The results showed that if no emission reduction control measures are implemented in the next 9 years, the growth rate of pollutants in the port area can be exceeded up to 20%. In addition, The findings showed clearly that truck emissions are reduced by purchasing new energy trucks and restricting the number of fossil-fuel (diesel) trucks. This study could also help to minimize system costs associated with port planning and management.
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来源期刊
Transportation Safety and Environment
Transportation Safety and Environment TRANSPORTATION SCIENCE & TECHNOLOGY-
CiteScore
3.90
自引率
13.60%
发文量
32
审稿时长
10 weeks
期刊最新文献
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