区域货运结构和能源强度对交通运输二氧化碳排放的影响--以长江三角洲地区为例

IF 3.1 3区 工程技术 Q2 ENVIRONMENTAL STUDIES
Chuanzhong Yin , Chenjiahui Wang , Qing Wang , Ying-en Ge
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引用次数: 0

摘要

本文以中国长三角(YRD)为研究区域,研究货运结构调整和能源强度对交通运输业二氧化碳(CO2)排放的影响。选取 1990 年至 2019 年的样本数据,利用能源强度、铁路与公路周转量比(R/H)、铁路与水路周转量比(R/W)三个自变量进行协整分析。然后,建立自回归分布滞后-误差修正模型(ARDL-ECM),通过单位根检验、自回归分布滞后(ARDL)边界检验和格兰杰检验,估计变量之间的长期和短期关系。结果表明,从长期来看,能源强度的增长会导致长三角地区交通部门二氧化碳排放量的长期增长,而 R/W 和 R/H 对二氧化碳排放量有抑制作用。格兰杰因果关系表明,能源强度与二氧化碳排放量之间存在双向因果关系。该研究可为政府部门制定交通行业碳排放相关政策提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of regional freight structure and energy intensity on CO2 emission of transport—a case study in Yangtze River Delta

Taking the Yangtze River Delta (YRD) of China as the research area, this paper studies the influence of freight structure adjustment and energy intensity on carbon dioxide (CO2) emission from the transportation industry. Sample data from 1990 to 2019 are selected, and co-integration analysis is performed using three independent variables: energy intensity, turnover ratio of railway to highway (R/H), and turnover ratio of railway to waterway (R/W). Then, an autoregressive distribution lag-error correction model (ARDL-ECM) is established to estimate the long-run and short-run relationships among the variables through unit root test, autoregressive distributed lag (ARDL) boundary test, and Granger test. The results show that in the long run, the growth of energy intensity leads to the long-term growth of CO2 emission in the transportation sector of the YRD, and R/W and R/H have a suppressive effect on CO2 emission. Granger causality indicates that there is a bidirectional causal relationship between energy intensity and CO2 emission. This work can be a reference for government departments to formulate policies related to carbon emissions in the transportation industry.

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来源期刊
CiteScore
8.90
自引率
2.60%
发文量
56
期刊介绍: The International Journal of Sustainable Transportation provides a discussion forum for the exchange of new and innovative ideas on sustainable transportation research in the context of environmental, economical, social, and engineering aspects, as well as current and future interactions of transportation systems and other urban subsystems. The scope includes the examination of overall sustainability of any transportation system, including its infrastructure, vehicle, operation, and maintenance; the integration of social science disciplines, engineering, and information technology with transportation; the understanding of the comparative aspects of different transportation systems from a global perspective; qualitative and quantitative transportation studies; and case studies, surveys, and expository papers in an international or local context. Equal emphasis is placed on the problems of sustainable transportation that are associated with passenger and freight transportation modes in both industrialized and non-industrialized areas. All submitted manuscripts are subject to initial evaluation by the Editors and, if found suitable for further consideration, to peer review by independent, anonymous expert reviewers. All peer review is single-blind. Submissions are made online via ScholarOne Manuscripts.
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