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Post-Kyoto CO2 emission reduction : the soft landing scenario analysed with POLES and other world models

Author

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  • Peter Russ

    (IPTS - Joint Research Centre - Commission Européenne)

  • Patrick Criqui

    (LEPII - Laboratoire d'Economie de la Production et de l'Intégration Internationale - UPMF - Université Pierre Mendès France - Grenoble 2 - CNRS - Centre National de la Recherche Scientifique)

Abstract

Long-term outlooks are key tools for policy design in the energy sector. These outlooks should also include scenarios considering active policies that address the challenge of climate change. Consequently such a CO2 emission reduction scenario was analysed as a case study within the ACROPOLIS project. This paper presents a method to derive regional emission targets that correspond to an emission trajectory that stabilises carbon dioxide emissions by 2030, within a concentration target set at 550 ppmv. In a next step, the impact of emission reduction on the structure of the future energy system is briefly analysed using the POLESworld energy model. Finally, some key indicators are compared with the results from other world energy models used in the ACROPOLIS project to analyse the same emission reduction scenario. While the emission reduction compared to the baseline is significant, the resulting necessary adaptations in terms of energy and carbon efficiencies lie within the ranges observed in the past. It is demonstrated that the defined "soft landing" emission reduction scenario would under the assumption of emission trading produce permit prices that are not extremely high. Though forecasted effect of CO2 emission reduction on the energy system is quite different across models, the marginal reduction costsbroadly coincide across the participating models. This especially is true when taking into account the different reduction efforts caused by different levels of emissions in the baseline.

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  • Peter Russ & Patrick Criqui, 2007. "Post-Kyoto CO2 emission reduction : the soft landing scenario analysed with POLES and other world models," Post-Print halshs-00078489, HAL.
    • Handle: RePEc:hal:journl:halshs-00078489
    Note: View the original document on HAL open archive server: https://shs.hal.science/halshs-00078489
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    References listed on IDEAS

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    Cited by:

    1. Andrea Herbst & Felipe Andrés Toro & Felix Reitze & Eberhard Jochem, 2012. "Introduction to Energy Systems Modelling," Swiss Journal of Economics and Statistics (SJES), Swiss Society of Economics and Statistics (SSES), vol. 148(II), pages 111-135, June.
    2. Haller, Markus & Ludig, Sylvie & Bauer, Nico, 2012. "Bridging the scales: A conceptual model for coordinated expansion of renewable power generation, transmission and storage," Renewable and Sustainable Energy Reviews, Elsevier, vol. 16(5), pages 2687-2695.
    3. Markandya, A. & González-Eguino, M. & Criqui, P. & Mima, S., 2014. "Low climate stabilisation under diverse growth and convergence scenarios," Energy Policy, Elsevier, vol. 64(C), pages 288-301.
    4. Yang, Chunmeng & Bu, Siqi & Fan, Yi & Wan, Wayne Xinwei & Wang, Ruoheng & Foley, Aoife, 2023. "Data-driven prediction and evaluation on future impact of energy transition policies in smart regions," Applied Energy, Elsevier, vol. 332(C).
    5. Vicki Duscha & Katja Schumacher & Joachim Schleich & Pierre Buisson, 2014. "Costs of meeting international climate targets without nuclear power," Climate Policy, Taylor & Francis Journals, vol. 14(3), pages 327-352, May.
    6. Luis Sarmiento & Thorsten Burandt & Konstantin Löffler & Pao-Yu Oei, 2019. "Analyzing Scenarios for the Integration of Renewable Energy Sources in the Mexican Energy System—An Application of the Global Energy System Model (GENeSYS-MOD)," Energies, MDPI, vol. 12(17), pages 1-24, August.
    7. Kamiński, Jacek, 2012. "The development of market power in the Polish power generation sector: A 10-year perspective," Energy Policy, Elsevier, vol. 42(C), pages 136-147.
    8. Anil Markandaya & Mikel Gonzalez-Eguino & Patrick Criqui & Silvana Mima, 2014. "Low climate stabilisation under diverse growth and convergence scenarios," Post-Print halshs-00872630, HAL.
    9. Criqui, P. & Mima, S. & Menanteau, P. & Kitous, A., 2015. "Mitigation strategies and energy technology learning: An assessment with the POLES model," Technological Forecasting and Social Change, Elsevier, vol. 90(PA), pages 119-136.
    10. Sarmiento, Luis & Burandt, Thorsten & Löffler, Konstantin & Oei, Pao-Yu, 2019. "Analyzing Scenarios for the Integration of Renewable Energy Sources in the Mexican Energy System," EconStor Open Access Articles and Book Chapters, ZBW - Leibniz Information Centre for Economics, vol. 12(2019), pages 1-1.
    11. Fleiter, Tobias & Worrell, Ernst & Eichhammer, Wolfgang, 2011. "Barriers to energy efficiency in industrial bottom-up energy demand models--A review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 15(6), pages 3099-3111, August.
    12. Bollen, Johannes, 2015. "The value of air pollution co-benefits of climate policies: Analysis with a global sector-trade CGE model called WorldScan," Technological Forecasting and Social Change, Elsevier, vol. 90(PA), pages 178-191.
    13. Haller, Markus & Ludig, Sylvie & Bauer, Nico, 2012. "Decarbonization scenarios for the EU and MENA power system: Considering spatial distribution and short term dynamics of renewable generation," Energy Policy, Elsevier, vol. 47(C), pages 282-290.
    14. Mendoza Beltran, Angelica & den Elzen, Michel G.J. & Hof, Andries F. & van Vuuren, Detlef P. & van Vliet, Jasper, 2011. "Exploring the bargaining space within international climate negotiations based on political, economic and environmental considerations," Energy Policy, Elsevier, vol. 39(11), pages 7361-7371.
    15. Li, Yanfei & Chang, Youngho, 2015. "Infrastructure investments for power trade and transmission in ASEAN+2: Costs, benefits, long-term contracts and prioritized developments," Energy Economics, Elsevier, vol. 51(C), pages 484-492.
    16. Yanfei LI & Youngho CHANG, 2014. "Infrastructutre Investments for Power Trade and Transmission in ASEAN+2: Costs, Benefits, Long-Term Contracts, and Prioritised Development," Working Papers DP-2014-21, Economic Research Institute for ASEAN and East Asia (ERIA).
    17. Patrick Criqui & Constantin Ilasca & Emmanuel Prados, 2014. "National Soft Landing CO2 trajectories under global carbon budgets," Working Papers halshs-00980101, HAL.
    18. A. F. Hof & M. G. J. Elzen & A. Mendoza Beltran, 2016. "The EU 40 % greenhouse gas emission reduction target by 2030 in perspective," International Environmental Agreements: Politics, Law and Economics, Springer, vol. 16(3), pages 375-392, June.
    19. Pilli-Sihvola, Karoliina & Aatola, Piia & Ollikainen, Markku & Tuomenvirta, Heikki, 2010. "Climate change and electricity consumption--Witnessing increasing or decreasing use and costs?," Energy Policy, Elsevier, vol. 38(5), pages 2409-2419, May.
    20. Lv, Fei & Wu, Qiong & Ren, Hongbo & Zhou, Weisheng & Li, Qifen, 2024. "On the design and analysis of long-term low-carbon roadmaps: A review and evaluation of available energy-economy-environment models," Renewable and Sustainable Energy Reviews, Elsevier, vol. 189(PA).
    21. Simões, Sofia & Cleto, João & Fortes, Patri­cia & Seixas, Júlia & Huppes, Gjalt, 2008. "Cost of energy and environmental policy in Portuguese CO2 abatement--scenario analysis to 2020," Energy Policy, Elsevier, vol. 36(9), pages 3598-3611, September.
    22. Sinha, Avik, 2016. "Trilateral association between SO2 / NO2 emission, inequality in energy intensity, and economic growth: A case of Indian cities," MPRA Paper 100010, University Library of Munich, Germany.

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    Keywords

    Post-Kyoto targets; model comparison; energy outlook; scenario; gaz à effet de serre; modèle énergétique; modèle POLES;
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