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Carbon Sequestration, Economic Policies and Growth

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  • Grimaud, André
  • Rougé, Luc

Abstract

The possibility of capturing and sequestering some fraction of the CO2 emissions arising from fossil fuel combustion, often labeled as carbon capture and storage (CCS), is drawing an increasing amount of attention in the business and academic communities. We present here a model of endogenous growth in which the use of a non-renewable resource in production yields flows of pollution whose accumulated stock negatively affects welfare. A CCS technology allows, via some effort, for the partial reduction of CO2 emissions in the atmosphere. We characterize the social optimum and how the availability of the CCS technology affects it, and we study the decentralized economy's trajectories. We then analyze economic policies. We first characterize the first-best policy. We derive the expression of the Pigovian carbon tax, and we give a full interpretation of its level, which is unique. We then study the impacts of three different second-best policies: a carbon tax, a subsidy to sequestered carbon, and a subsidy to labor in CCS. The first two tools foster CCS activity; so does the third, but only if it is coupled with one of the other two. While the tax postpones resource extraction, the two subsidies accelerate it's possibly yielding a rise in short-term CO2 emissions. The effects on growth are more complex. If the weight of the CCS sector in the economy is high, the tax will generally be detrimental to output growth, while the subsidies can foster it in the long-term. Finally, the carbon tax has a negative impact on the output level in the short-term, contrary to the subsidies.

Suggested Citation

  • Grimaud, André & Rougé, Luc, 2012. "Carbon Sequestration, Economic Policies and Growth," IDEI Working Papers 751, Institut d'Économie Industrielle (IDEI), Toulouse, revised Aug 2013.
    • Handle: RePEc:ide:wpaper:26505
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    Cited by:

    1. Liu, Xin & Wu, Dewang, 2024. "Does PM2.5 accelerate the firm evolution? Evidence from 800-mm isoline in China," Energy Policy, Elsevier, vol. 184(C).
    2. Dong Le & Fei Ren & Yiding Tang & Yuke Zhu, 2022. "The Effect of Environmental Policy Uncertainty on Enterprises’ Pollution Emissions: Evidence from Chinese Industrial Enterprise," IJERPH, MDPI, vol. 19(16), pages 1-22, August.
    3. Liu, Xinyu & Song, Min & Wang, Shuying & Xu, Xingwu & Li, Haolin, 2024. "On innovation infrastructure and industrial carbon emissions: Nonlinear correlation and effect mechanism," Applied Energy, Elsevier, vol. 375(C).
    4. Durmaz, Tunç, 2018. "The economics of CCS: Why have CCS technologies not had an international breakthrough?," Renewable and Sustainable Energy Reviews, Elsevier, vol. 95(C), pages 328-340.
    5. Amigues, Jean-Pierre & Lafforgue, Gilles & Moreaux, Michel, 2016. "Optimal timing of carbon capture policies under learning-by-doing," Journal of Environmental Economics and Management, Elsevier, vol. 78(C), pages 20-37.
    6. Lucas Bretschger & Christos Karydas, 2018. "Optimum Growth and Carbon Policies with Lags in the Climate System," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 70(4), pages 781-806, August.
    7. Maciej Malaczewski, 2017. "Warunki przejścia gospodarki na odnawialne źródła energii," Gospodarka Narodowa. The Polish Journal of Economics, Warsaw School of Economics, issue 1, pages 33-51.
    8. Maciej Malaczewski, 2018. "Natural Resources As An Energy Source In A Simple Economic Growth Model," Bulletin of Economic Research, Wiley Blackwell, vol. 70(4), pages 362-380, October.
    9. Durmaz, Tunç & Schroyen, Fred, 2013. "Evaluating Carbon Capture and Storage in a Climate Model with Directed Technical Change," Discussion Paper Series in Economics 14/2013, Norwegian School of Economics, Department of Economics.
    10. Ken Tabata, 2024. "Taxation of a Non-renewable Resource and Inequality in an R&D-based Growth Model," Discussion Paper Series 272, School of Economics, Kwansei Gakuin University.
    11. Tunç Durmaz & Fred Schroyen, 2020. "Evaluating Carbon Capture And Storage In A Climate Model With Endogenous Technical Change," Climate Change Economics (CCE), World Scientific Publishing Co. Pte. Ltd., vol. 11(01), pages 1-47, February.
    12. Charles F. Mason & Neil Wilmot, 2015. "Modeling Damages in Climate Policy Models: Temperature-Based or Carbon-Based?," CESifo Working Paper Series 5287, CESifo.
    13. Anna Creti & Alena Kotelnikova & Guy Meunier & Jean-Pierre Ponssard, 2018. "Correction to: Defining the Abatement Cost in Presence of Learning-by-Doing: Application to the Fuel Cell Electric Vehicle," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 71(3), pages 801-801, November.
    14. Zhang, Kun & Wang, Qian & Liang, Qiao-Mei & Chen, Hao, 2016. "A bibliometric analysis of research on carbon tax from 1989 to 2014," Renewable and Sustainable Energy Reviews, Elsevier, vol. 58(C), pages 297-310.
    15. Huo, Xiaolin & Jiang, Dayan & Qiu, Zhigang & Yang, Sijie, 2022. "The impacts of dual carbon goals on asset prices in China," Journal of Asian Economics, Elsevier, vol. 83(C).
    16. Anton Bondarev & Alfred Greiner, 2022. "How ongoing structural change creates a double dividend: outdating of technologies and green growth," Portuguese Economic Journal, Springer;Instituto Superior de Economia e Gestao, vol. 21(2), pages 125-160, May.
    17. Tarufelli, Brittany & Snyder, Brian & Dismukes, David, 2021. "The Potential Impact of the U.S. Carbon Capture and Storage Tax Credit Expansion on the Economic Feasibility of Industrial Carbon Capture and Storage," Energy Policy, Elsevier, vol. 149(C).
    18. Gu, Zhenjing & Mousa, Saeed & Meng, Da & Elkady, Ahmed M. & Leong, Lin Woon, 2025. "Digitizing energy supply chains for enhanced resilience: Exploring the nexus between supply chain digitization, carbon neutrality, and natural resource extraction," Energy Economics, Elsevier, vol. 142(C).
    19. Guangming Rao & Bin Su & Jinlian Li & Yong Wang & Yanhua Zhou & Zhaolin Wang, 2019. "Carbon Sequestration Total Factor Productivity Growth and Decomposition: A Case of the Yangtze River Economic Belt of China," Sustainability, MDPI, vol. 11(23), pages 1-28, November.

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    JEL classification:

    • O3 - Economic Development, Innovation, Technological Change, and Growth - - Innovation; Research and Development; Technological Change; Intellectual Property Rights
    • Q3 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Nonrenewable Resources and Conservation

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