Analysing the impact of carbon regulation policies on the clean energy advertisement input decision

Open Access

Issue		RAIRO-Oper. Res. Volume 60, Number 2, March-April 2026


Page(s)		955 - 988
DOI		https://doi.org/10.1051/ro/2026016
Published online		10 April 2026

X. Hu, Z.J. Yang, J. Sun and Y.L. Zhang, Carbon tax or cap-and-trade: which is more viable for chinese remanufacturing industry? J. Clean Prod. 243 (2020) 118606. [Google Scholar]
J. Skovgaard, S.S. Ferrari and A. Knaggard, Mapping and clustering the adoption of carbon pricing policies: what polities price carbon and why? Clim. Policy 19 (2019) 1173–1185. [Google Scholar]
Y.X. Zhang, W. Chen and W.D. Chun, Research status and trend prospects of the carbon cap-and-trade mechanism. Environ. Dev. Sustain. 27 (2025) 5097–5130. [Google Scholar]
W. Tong, D. Mu, F. Zhao, G.P. Mendis and J.W. Sutherland, The impact of cap-and-trade mechanism and consumers’ environmental preferences on a retailer-led supply chain. Resour. Conserv. Recycl. 142 (2019) 88–100. [CrossRef] [Google Scholar]
S.H. Dong and X.L. Wu, Technology choice under the cap-and-trade policy: the impact of emission cap and technology efficiency. Eur. J. Oper. Res. 326 (2025) 286–298. [Google Scholar]
C.C. Lin, S.Y. Zhang, Y.L. Chou and W.Y. Liu, Energy management scheduling of a smart factory with carbon capture and storage, carbon emission quota cap-and-trade and green energy trading. Energy 333 (2025) 137231. [Google Scholar]
M. Stuhlmacher, S. Patnaik, D. Streletskiy and K. Taylor, Cap-and-trade and emissions clustering: a spatial-temporal analysis of the European union emissions trading scheme. J. Environ. Manage. 249 (2019) 109352. [Google Scholar]
W. Chen, L.F. Zhang and H.Y. Du, Impact of cap-and-trade mechanisms on investments in renewable energy and marketing effort. Sustain. Prod. Consump. 28 (2021) 1333–1342. [Google Scholar]
W. Chen, R.N. Zhu, J. Chen and Y.K. Ma, Impacts of carbon tax policies on low-carbon technology investment in the electricity supply chain under peak-valley pricing. IEEE Trans. Eng. Manage. 72 (2025) 3151–3165. [Google Scholar]
X.Q. Xia, Z.H. Huang, V. Shi and S.L. Zhao, Progressive carbon tax and carbon emission reduction technology advancement in outsourced low-carbon supply chains. Comput. Ind. Eng. 209 (2025) 111307. [Google Scholar]
P. Yu, Carbon tax/subsidy policy choice and its effects in the presence of interest groups. Energy Policy 147 (2020) 111886. [Google Scholar]
A.G. Kök, K. Shang and Ş. Yücel, Impact of electricity pricing policies on renewable energy investments and carbon emissions. Manage. Sci. 64 (2018) 131–148. [Google Scholar]
M.Y. Jin, X. Shi, A. Emrouznejad and F. Yang, Determining the optimal carbon tax rate based on data envelopment analysis. J. Clean Prod. 172 (2018) 900–908. [Google Scholar]
H. Pun and S. Ghamat, Cap-and-trade under a dual-channel setting in the presence of information asymmetry. Eur. J. Oper. Res. 322 (2025) 500–510. [Google Scholar]
Z.J. Tan, M. Wang, Z.F. Zheng and H. Yang, Routing and adopting of green technology in road freight transportation under the carbon cap-and-trade scheme. Transp. Res. E Logist. Transp. Rev. 203 (2025) 104193. [Google Scholar]
J. Hussain and C.C. Lee, A green path towards sustainable development: optimal behavior of the duopoly game model with carbon neutrality instruments. Sustain. Dev. 30 (2022) 1523–1541. [Google Scholar]
H.X. Sun and J. Yang, Optimal decisions for competitive manufacturers under carbon tax and cap-and-trade policies. Comput. Ind. Eng. 156 (2021) 107244. [CrossRef] [Google Scholar]
Y.H. Chen, C. Wang, P.Y. Nie and Z.R. Chen, A clean innovation comparison between carbon tax and cap-and-trade system. Energy Strateg. Rev. 29 (2020) 100483. [Google Scholar]
H. Akulker and E. Aydin, Optimal design and operation of a multi-energy microgrid using mixed-integer nonlinear programming: impact of carbon cap and trade system and taxing on equipment selections. Appl. Energy 330 (2023) 120313. [Google Scholar]
C.M. Shuai, L.P. Ding, Y.K. Zhang, Q. Guo and J. Shuai, How consumers are willing to pay for low-carbon products? – results from a carbon-labeling scenario experiment in China. J. Clean Prod. 83 (2014) 366–373. [Google Scholar]
X.G. Meng, Z. Yao, J.J. Nie, Y.X. Zhao and Z.L. Li, Low-carbon product selection with carbon tax and competition: effects of the power structure. J. Prod. Econ. 200 (2018) 224–230. [Google Scholar]
C.Q. Duan, F.M. Yao, X.Y. Guo, H. Yu and Y. Wang, The impact of carbon policies on supply chain network equilibrium: carbon trading price, carbon tax and low-carbon product subsidy perspectives. J. Logist. Res. Appl. 27 (2024) 1251–1275. [Google Scholar]
W.J. Zhang, L.L. He and H.P. Yuan, Enterprises’ decisions on adopting low-carbon technology by considering consumer perception disparity. Technovation 117 (2022) 102238. [Google Scholar]
W. Chen, M.Y. Cui, M. Quayson and H. Du, Price and carbon emission reduction technology competition in the electricity supply chain based on power structure. Rairo-Oper. Res. 58 (2024) 4621–4650. [Google Scholar]
M.Y. Wang, Y.M. Li, M.M. Li, W.Q. Shi and S.P. Quan, Will carbon tax affect the strategy and performance of low-carbon technology sharing between enterprises? J. Clean Prod. 210 (2019) 724–737. [Google Scholar]
Y.Q. Ding and Y.F. Hu, Accelerating efficiency of green technology innovation on carbon mitigation under low-carbon regulation. Energy Rep. 8 (2022) 126–134. [Google Scholar]
Vandana and R. Cerchione, Managing energy resources, carbon emissions and green technology adoption in circular economy transition: a mathematical approach. J. Clean Prod. 501 (2025) 145105. [Google Scholar]
S. Amiri-Pebdani, M. Alinaghian and H. Khosroshahi, Energy pricing and investigating international trade law considering renewable energy investments under the cap-and-trade system: a game theoretic approach. Appl. Energy 381 (2025) 125155. [Google Scholar]
W. Chen, J. Chen and Y.K. Ma, Competition vs. cooperation: renewable energy investment under cap-and-trade mechanisms. Financ. Innov. 8 (2022) 76. [Google Scholar]
F.S. Chien, T.L. Vu, T.T.H. Phan, S. Van Nguyen, N.H.V. Anh and T.Q. Ngo, Zero-carbon energy transition in asean countries: the role of carbon finance, carbon taxes and sustainable energy technologies. Renew. Energy 212 (2023) 561–569. [Google Scholar]
E. Dogan, S. Hodžić and T.F. Šikić, Do energy and environmental taxes stimulate or inhibit renewable energy deployment in the European union?. Renew. Energy 202 (2023) 1138–1145. [Google Scholar]
Q.Y. Zhu, X.F. Chen, M.L. Song, X.C. Li and Z.Y. Shen, Impacts of renewable electricity standard and renewable energy certificates on renewable energy investments and carbon emissions. J. Environ. Manage. 306 (2022) 114495. [Google Scholar]
Y. Yan, M. Sun and Z.L. Guo, How do carbon cap-and-trade mechanisms and renewable portfolio standards affect renewable energy investment? Energy Policy 165 (2022) 112938. [Google Scholar]
X. Meng and Y. Yu, Can renewable energy portfolio standards and carbon tax policies promote carbon emission reduction in china’s power industry? Energy Policy 174 (2023) 113461. [Google Scholar]
Y.Y. He, L.Z. Wang and J.H. Wang, Cap-and-trade vs. carbon taxes: a quantitative comparison from a generation expansion planning perspective. Comput. Ind. Eng. 63 (2012) 708–716. [Google Scholar]
B.W. Xiao, X.D. Guo, X. Yu, C. Jia, Z. Chen and W.X. Geng, Evaluating and optimizing environmental tax, carbon trading scheme and renewable portfolio standard in China: an E-DSGE model. J. Environ. Manage. 370 (2024) 122727. [Google Scholar]
P. Menanteau, D. Finon and M.L. Lamy, Prices versus quantities: choosing policies for promoting the development of renewable energy. Energy Policy 31 (2003) 799–812. [CrossRef] [Google Scholar]
Y.X. Zhang, W. Chen, H. Yang and H. Wang, Renewable energy input strategy considering different electricity price regulation policies. Comput. Ind. Eng. 190 (2024) 110092. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.