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Greenhouse gas emissions from current and enhanced policies of China until 2030: Can emissions peak before 2030?

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Listed:
  • Elzen, Michel den
  • Fekete, Hanna
  • Höhne, Niklas
  • Admiraal, Annemiek
  • Forsell, Nicklas
  • Hof, Andries F.
  • Olivier, Jos G.J.
  • Roelfsema, Mark
  • van Soest, Heleen

Abstract

In June 2015, China announced its post-2020 reduction targets, its central element being the intention to peak CO2 emissions by 2030 or earlier. China has implemented several policies to reduce its greenhouse gas (GHG) emissions. This study provides emission projections for China up to 2030 given current policies and a selected set of enhanced policies, and compares the results with projected CO2 emission trajectories that are consistent with the announced target for 2030. The projections are based on existing scenarios and energy system and land use model calculations. We project that the 2030 CO2 emission level consistent with a peak in CO2 emissions by 2030 ranges from 11.3 to 11.8 GtCO2. The corresponding total GHG emission level ranges from 13.5 to 14.0 GtCO2e in 2030. Current policies are likely not to be sufficient to achieve the 2030 targets, as our projected total GHG emission level under current policies ranges from 14.7 to 15.4 GtCO2e by 2030. However, an illustrative set of enhancement policy measures, all of which are related to national priorities, leads to projected GHG emission levels from 13.1 to 13.7 GtCO2e by 2030 – and thus below the levels necessary for peaking CO2 emissions before 2030.

Suggested Citation

  • Elzen, Michel den & Fekete, Hanna & Höhne, Niklas & Admiraal, Annemiek & Forsell, Nicklas & Hof, Andries F. & Olivier, Jos G.J. & Roelfsema, Mark & van Soest, Heleen, 2016. "Greenhouse gas emissions from current and enhanced policies of China until 2030: Can emissions peak before 2030?," Energy Policy, Elsevier, vol. 89(C), pages 224-236.
    • Handle: RePEc:eee:enepol:v:89:y:2016:i:c:p:224-236
    DOI: 10.1016/j.enpol.2015.11.030
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    1. Terry Townshend & Sam Fankhauser & Adam Matthews & Clément Feger & Jin Liu & Thais Narciso, 2011. "GLOBE climate legislation study," Working Papers hal-01930971, HAL.
    2. Kejun Jiang & Xing Zhuang & Ren Miao & Chenmin He, 2013. "China's role in attaining the global 2°C target," Climate Policy, Taylor & Francis Journals, vol. 13(sup01), pages 55-69, March.
    3. Richerzhagen, Carmen & von Frieling, Tabea & Hansen, Nils & Minnaert, Anja & Netzer, Nina & Rußbild, Jonas, 2008. "Energy efficiency in buildings in China: policies, barriers and opportunities," IDOS Studies, German Institute of Development and Sustainability (IDOS), volume 41, number 41.
    4. Zhu Liu & Dabo Guan & Wei Wei & Steven J. Davis & Philippe Ciais & Jin Bai & Shushi Peng & Qiang Zhang & Klaus Hubacek & Gregg Marland & Robert J. Andres & Douglas Crawford-Brown & Jintai Lin & Hongya, 2015. "Reduced carbon emission estimates from fossil fuel combustion and cement production in China," Nature, Nature, vol. 524(7565), pages 335-338, August.
    5. Daniel Johansson & Paul Lucas & Matthias Weitzel & Erik Ahlgren & A. Bazaz & Wenying Chen & Michel Elzen & Joydeep Ghosh & Maria Grahn & Qiao-Mei Liang & Sonja Peterson & Basanta Pradhan & Bas Ruijven, 2015. "Multi-model comparison of the economic and energy implications for China and India in an international climate regime," Mitigation and Adaptation Strategies for Global Change, Springer, vol. 20(8), pages 1335-1359, December.
    6. Chen, Wenying & Wu, Zongxin & He, Jiankun & Gao, Pengfei & Xu, Shaofeng, 2007. "Carbon emission control strategies for China: A comparative study with partial and general equilibrium versions of the China MARKAL model," Energy, Elsevier, vol. 32(1), pages 59-72.
    7. Massimo Tavoni & Elmar Kriegler & Keywan Riahi & Detlef P. van Vuuren & Tino Aboumahboub & Alex Bowen & Katherine Calvin & Emanuele Campiglio & Tom Kober & Jessica Jewell & Gunnar Luderer & Giacomo Ma, 2015. "Post-2020 climate agreements in the major economies assessed in the light of global models," Nature Climate Change, Nature, vol. 5(2), pages 119-126, February.
    8. den Elzen, Michel G.J. & Hof, Andries F. & Roelfsema, Mark, 2013. "Analysing the greenhouse gas emission reductions of the mitigation action plans by non-Annex I countries by 2020," Energy Policy, Elsevier, vol. 56(C), pages 633-643.
    9. Zhou, Nan & Levine, Mark D. & Price, Lynn, 2010. "Overview of current energy-efficiency policies in China," Energy Policy, Elsevier, vol. 38(11), pages 6439-6452, November.
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