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Deep CO 2 emission reductions in a global bottom-up model approach

Author

Listed:
  • Sebastiaan Deetman
  • Andries F. Hof
  • Detlef P. van Vuuren

Abstract

Most studies that explore deep GHG emission reduction scenarios assume that climate goals are reached by implementing least-cost emission mitigation options, typically by implementing a global carbon tax. Although such a method provides insight into total mitigation costs, it does not provide much information about how to achieve a transition towards a low-carbon energy system, which is of critical importance to achieving ambitious climate targets. To enable sensible deep emission reduction strategies, this study analysed the effectiveness of 16 specific mitigation measures on a global level up to 2050, by using an energy-system simulation model called TIMER. The measures range from specific energy efficiency measures, like banning traditional light bulbs and subsidizing electric vehicles, to broader policies like introducing a carbon tax in the electricity sector. All measures combined lead to global CO 2 emission reductions ranging between 39% and 73% compared to baseline by 2050, depending on the inclusion of sectoral carbon taxes and the availability of carbon capture and storage (CCS) and nuclear power. Although the effectiveness of the measures differs largely across regions, this study indicates that measures aimed at stimulating low-carbon electricity production result in the highest reductions in all regions. Policy relevance The results of the calculations can be used to evaluate the effects of individual climate change mitigation measures and identify priorities in discussions on global and regional policies. The type of fragmented policy scenarios presented here could provide a relevant bottom-up alternative to cost-optimal implementation of policies driven by a carbon tax. We identify overlapping and even counter-productive climate policy measures through an analysis that presents the policy effectiveness by region, and by sector. The set of 16 policy measures addresses the largest emitting sectors and represents options that are often discussed as part of planned policies.

Suggested Citation

  • Sebastiaan Deetman & Andries F. Hof & Detlef P. van Vuuren, 2015. "Deep CO 2 emission reductions in a global bottom-up model approach," Climate Policy, Taylor & Francis Journals, vol. 15(2), pages 253-271, March.
    • Handle: RePEc:taf:tcpoxx:v:15:y:2015:i:2:p:253-271
    DOI: 10.1080/14693062.2014.912980
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    Cited by:

    1. Peter Viebahn & Emile J. L. Chappin, 2018. "Scrutinising the Gap between the Expected and Actual Deployment of Carbon Capture and Storage—A Bibliometric Analysis," Energies, MDPI, vol. 11(9), pages 1-45, September.
    2. Boyce, Scott & He, Fangliang, 2022. "Political governance, socioeconomics, and weather influence provincial GHG emissions in Canada," Energy Policy, Elsevier, vol. 168(C).
    3. Kang, Jia-Ning & Wei, Yi-Ming & Liu, Lan-Cui & Han, Rong & Yu, Bi-Ying & Wang, Jin-Wei, 2020. "Energy systems for climate change mitigation: A systematic review," Applied Energy, Elsevier, vol. 263(C).
    4. Boyce, Scott & He, Fangliang, 2023. "Effects of government policy, socioeconomics, and weather on residential GHG emissions across subnational jurisdictions: The case of Canada," Energy Policy, Elsevier, vol. 182(C).
    5. Hof, Andries F. & Carrara, Samuel & De Cian, Enrica & Pfluger, Benjamin & van Sluisveld, Mariësse A.E. & de Boer, Harmen Sytze & van Vuuren, Detlef P., 2020. "From global to national scenarios: Bridging different models to explore power generation decarbonisation based on insights from socio-technical transition case studies," Technological Forecasting and Social Change, Elsevier, vol. 151(C).

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