Research on the Countermeasures for the Low-Carbon Transformation of China’s Logistics Industry under the Goals of Carbon Peaking and Carbon Neutrality
DOI:
https://doi.org/10.54097/fbem.v5i1.1427Keywords:
China’s Logistics Industry, Goals of Carbon Peaking and Carbon Neutrality, Low-Carbon Transformation.Abstract
As a result of the massive emission of greenhouse gases, global warming has become the increasingly severe problem. Carbon emission reduction and low-carbon transformation are the general trends. How to make China’s logistics industry move toward a low-carbon and low-energy consumption model has become a major challenge for the logistics industry. Based on the existing research and the actual situation, this paper takes the low-carbon transformation and carbon emission management of China’s logistics industry under goals of carbon peaking and carbon neutrality as the starting point, and conducts analysis on four aspects deeply: lax policy constraints, imperfect carbon emission verification system of the logistics industry, unreasonable transportation structure of the logistics industry, and weak carbon emission management capabilities of logistics enterprises. And put forward feasible suggestions and improvement strategies to facilitate the low-carbon transformation of China’s logistics industry from the four levels.
Downloads
References
Xu W. Research on Carbon Emission Efficiency of Provincial Logistics Industry in Low Carbon Background [D]. Jiangnan University, 2021.
Liang Z, Chiu Y, Guo Q, et al.Low-carbon logistics efficiency: Analysis on the statistical data of the logistics industry of 13 cities in Jiangsu Province, China[J].Research in Transportation Business & Management, 2022, 43: 100740.
Gao J, Li T, Ma Z.A Longitudinal Empirical Study on Low Carbon Logistics Efficiency in Shaanxi Province[C]//2021 3rd International Academic Exchange Conference on Science and Technology Innovation (IAECST).IEEE, 2021: 1308-1311.
Shi M.Environmental Pollution and Measurement of Low-Carbon Logistics Efficiency in China’s Logistics Industry[J].Nature Environment & Pollution Technology, 2018, 17(4).
Lukman R K, Cerinšek M, Virtič P, et al.Improving efficient resource usage and reducing carbon dioxide emissions by optimizing fleet management for winter services[J].Journal of cleaner production, 2018, 177: 1-11.
Wang J, Lim M K, Tseng M L, et al.Promoting low carbon agenda in the urban logistics network distribution system[J].Journal of cleaner production, 2019, 211: 146-160.
Leng L. Research on the location path and hyperinspired algorithm of Low-carbon Logistics [D]. Zhejiang University of Technology, 2020.
Fang X, Nie L, Mu H.Research progress on logistics network optimization under low carbon constraints[C]//IOP Conference Series: Earth and Environmental Science.IOP Publishing, 2020, 615(1): 012060.
Ying Z.Low carbon logistics network planning based on green supply chain[C]//2021 13th International Conference on Measuring Technology and Mechatronics Automation (ICMTMA).IEEE, 2021: 86-89.
Quan C, Cheng X, Yu S, et al.Analysis on the influencing factors of carbon emission in China's logistics industry based on LMDI method[J].Science of The Total Environment, 2020, 734: 138473.
Kang H. Evaluation of Regional Low Carbon Logistics [D]. Hebei University, 2021.
Guo Z, Tian Y, Guo X, et al.Research on Measurement and Application of China’s Regional Logistics Development Level under Low Carbon Environment[J].Processes, 2021, 9(12): 2273.
Shao H, Wang Z. The Spatial Association Network Structure and Its Impact Factors of Traffic Carbon Emission Efficiency in China [J]. China's Population·Resources and Environment, 2021,31 (04): 32-41.
Lin S, Wang J.Carbon emission reduction effect of transportation structure adjustment in China: an approach on multi-objective optimization model[J].Environmental Science and Pollution Research, 2022, 29(4): 6166-6183.
Zhao X, Zhang S, Yuan C. Spatial Measurement Test of Kuznets Curve for Transportation Carbon Emission Environment in China [J]. Statistics and Decision-making, 2021,37 (04): 23-26.
Downloads
Published
Issue
Section
How to Cite
