A low-carbon transportation network: Collaborative effects of a rail freight subsidy and carbon trading mechanism

•Collaborative effects of freight subsidies and carbon trading are examined by a multiobjective model.•Rail freight subsidy contributes to the low-carbon transportation network optimization.•At low trading price, carbon quota unlikely to effectively affect the structure of transportation network.•It...

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Published in:Transportation research. Part A, Policy and practice Policy and practice, 2024-06, Vol.184, p.104066, Article 104066
Main Authors: Yin, Chuanzhong, Zhang, Zi-Ang, Fu, Xiaowen, Ge, Ying-En
Format: Article
Language:English
Subjects:
Carbon trading mechanism
Collaborative effects
Intermodal transportation
Multiobjective 0–1 mathematical model
Rail freight subsidy
Transportation network
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Summary:•Collaborative effects of freight subsidies and carbon trading are examined by a multiobjective model.•Rail freight subsidy contributes to the low-carbon transportation network optimization.•At low trading price, carbon quota unlikely to effectively affect the structure of transportation network.•It is worthwhile to promote the collaboration of freight subsidies and carbon trading mechanism. Optimizing a transportation network is an effective way to reduce carbon emissions. To examine the collaborative effects of a rail freight subsidy and carbon trading mechanism in a low-carbon transportation network, a multiobjective 0–1 mathematical model that considers transportation cost, carbon trading cost and transportation time is established in this paper, and the NSGA-II algorithm is used to solve it. The Pareto optimal frontier solution set is found for the model, and the optimal solution is determined using the evaluation function of the ideal point method. The performance and effectiveness of the NSGA-II algorithm is analyzed by means of a sample example. A case study of the Yangtze River Economic Belt region in China is conducted to demonstrate the application and practicality of the model. Sensitivity analysis is carried out on rail freight subsidy, carbon quota and carbon trading price. The numerical results highlight that the rail freight subsidy significantly contributes to the design of the low-carbon transportation network, while the low carbon trading price shows a limited effect, which also leads to a weak effect of carbon quota on low-carbon transportation network design. These findings provide decision-making support for optimizing the low-carbon transportation network design and improving the carbon trading mechanism.
ISSN:0965-8564
1879-2375
DOI:10.1016/j.tra.2024.104066