A Study on Supply Chain ' Emissions Reduction Investments and Offshore Production Strategies in Consideration of Carbon Border Adjustment Mechanism

Qiaoli Lai; Xiaohan Zhang; Bowen Tang

doi:10.54097/2grgh968

Authors

Qiaoli Lai
Xiaohan Zhang
Bowen Tang

DOI:

https://doi.org/10.54097/2grgh968

Keywords:

Carbon Tariffs, Green Supply Chain, Production.

Abstract

This paper, based on the international context of EU's Carbon Border Adjustment Mechanism, focuses on the impact of this policy on emissions reduction and production procurement strategies for cross-border supply chain enterprises. By constructing a multi-level supply chain enterprise decision-making game theory model, the paper analyzes the emissions reduction and production strategies of enterprises along the supply chain using optimization theory and methods. The aim is to provide enterprises with response decision-making recommendations under the current carbon tariff implementation scenario and, thereby, offer policy recommendations for governments to implement or address carbon tariffs. In the context of the “dual carbon” goals, this paper constructs a theoretical analysis model to study how cross-border supply chains can address the new challenges posed by carbon tariffs, holding significant theoretical and practical significance.

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References

[1] Ramadorai, T., & Zeni, F. (2024). Climate regulation and emissions abatement: Theory and evidence from firms’ disclosures. Management Science, 70 (12), 8366 - 8385.

[2] Zhou, X., Zhu, Q., Xu, L., Wang, K., Yin, X., & Mangla, S. K. (2024). The effect of carbon tariffs and the associated coping strategies: A global supply chain perspective. Omega, 122, 102960.

[3] Hua, J., Wang, K., Lin, J., & Qian, Y. (2024). Carbon tax vs. Carbon cap-and-trade: implementation of carbon border tax in cross-regional production. International Journal of Production Economics, 274, 109317.

[4] Tian, B., Liu, M., Pan, B., Yuan, G., & Xie, F. (2024). Carbon emissions and sustainable supply chains: a Stackelberg game analysis of multinational firm relationships. Mathematics, 12 (24), 3983.

[5] Cheng, J., Liao, L., Lu, S., Sun, T., & Wu, P. (2025). Effective MILP and matheuristic for multi-echelon green supply chain operations and financing considering carbon emission reduction investment. Journal of Cleaner Production, 493, 144816.

[6] Shi, X., Chan, H. L., & Dong, C. (2018). Value of bargaining contract in a supply chain system with sustainability investment: An incentive analysis. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 50 (4), 1622 - 1634.

[7] Bangjun, W., Yue, W., Linyu, C., & Kejia, X. (2023). Supply chain coordination mechanisms of coal power enterprises under renewable energy quota system: A perspective of game analysis.

[8] Wang, L., & Su, X. (2025). Carbon reduction decision-making in the supply chain considering carbon allowances and bidirectional option trading mode of carbon emission rights. Energy Reports, 13, 2678 – 2696.

[9] Drake, D. F. (2018). Carbon tariffs: effects in settings with technology choice and foreign production cost advantage. Manufacturing & Service Operations Management, 20 (4), 667 – 686.

[10] Huang, X. (Natalie), Tan, T., & Toktay, L. B. (2021). Carbon leakage: the impact of asymmetric regulation on carbon‐emitting production. Production and Operations Management, 30 (6), 1886 – 1903.

[11] Bellora, C., & Fontagné, L. (2023). EU in search of a Carbon Border Adjustment Mechanism. Energy Economics, 123, 106673.

[12] Fang, Y., Yu, Y., Shi, Y., & Liu, J. (2020). The effect of carbon tariffs on global emission control: A global supply chain model. Transportation Research Part E: Logistics and Transportation Review, 133, 101818.

[13] Li, S., Zheng, B., & Jia, D. (2024). Optimal decisions for hybrid manufacturing and remanufacturing with trade-in program and carbon tax. Omega, 124, 103012.