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The Canadian oil sands industry under carbon constraints

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  • Chan, Gabriel
  • Reilly, John M.
  • Paltsev, Sergey
  • Chen, Y.-H. Henry

Abstract

We investigate the impact of climate policies on Canada’s oil sands industry, the largest of its kind in the world. Deriving petroleum products such as gasoline and diesel from oils sands involves significant amounts of energy, and that contributes to a high level of CO2 emissions. We apply the MIT Emissions Prediction and Policy Analysis (EPPA) model, a computable general equilibrium model of the world economy, augmented to include detail on the oil sands production processes, including the possibility of carbon capture and storage (CCS). We find: (1) without climate policy, annual Canadian bitumen production increases almost 4-fold from 2010 to 2050; (2) with climate policies implemented in developed countries, Canadian bitumen production drops by 32% to 68% from the reference 4-fold increase, depending on the viability of large-scale CCS implementation, and bitumen upgrading capacity moves to the developing countries; (3) with climate policies implemented worldwide, the Canadian bitumen production is significantly reduced even with CCS technology, which lowers CO2 emissions at an added cost. This is mainly because upgrading bitumen abroad is no longer economic with the global climate policies.

Suggested Citation

  • Chan, Gabriel & Reilly, John M. & Paltsev, Sergey & Chen, Y.-H. Henry, 2012. "The Canadian oil sands industry under carbon constraints," Energy Policy, Elsevier, vol. 50(C), pages 540-550.
    • Handle: RePEc:eee:enepol:v:50:y:2012:i:c:p:540-550
    DOI: 10.1016/j.enpol.2012.07.056
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    Cited by:

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    2. Mark Jaccard & James Hoffele & Torsten Jaccard, 2018. "Global carbon budgets and the viability of new fossil fuel projects," Climatic Change, Springer, vol. 150(1), pages 15-28, September.
    3. Akbilgic, Oguz & Zhu, Da & Gates, Ian D. & Bergerson, Joule A., 2015. "Prediction of steam-assisted gravity drainage steam to oil ratio from reservoir characteristics," Energy, Elsevier, vol. 93(P2), pages 1663-1670.
    4. Ouellette, A. & Rowe, A. & Sopinka, A. & Wild, P., 2014. "Achieving emissions reduction through oil sands cogeneration in Alberta’s deregulated electricity market," Energy Policy, Elsevier, vol. 71(C), pages 13-21.
    5. Friedrichs, Jörg & Inderwildi, Oliver R., 2013. "The carbon curse: Are fuel rich countries doomed to high CO2 intensities?," Energy Policy, Elsevier, vol. 62(C), pages 1356-1365.
    6. Leitch, Aletta & Haley, Brendan & Hastings-Simon, Sara, 2019. "Can the oil and gas sector enable geothermal technologies? Socio-technical opportunities and complementarity failures in Alberta, Canada," Energy Policy, Elsevier, vol. 125(C), pages 384-395.
    7. Ramberg, David J. & Henry Chen, Y.H. & Paltsev, Sergey & Parsons, John E., 2017. "The economic viability of gas-to-liquids technology and the crude oil–natural gas price relationship," Energy Economics, Elsevier, vol. 63(C), pages 13-21.
    8. Xu Tang & Benjamin C. McLellan & Simon Snowden & Baosheng Zhang & Mikael Höök, 2015. "Dilemmas for China: Energy, Economy and Environment," Sustainability, MDPI, vol. 7(5), pages 1-13, May.
    9. Dzyuba, Yu. & Bakalova, I., 2023. "CGE models for resource-based economy: A comprehensive bibliometric analysis," Journal of the New Economic Association, New Economic Association, vol. 61(4), pages 12-50.

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