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Transport electrification: the effect of recent battery cost reduction on future emission scenarios

Author

Listed:
  • O. Y. Edelenbosch

    (PBL Netherlands Environmental Assessment Agency
    Politecnico di Milano)

  • A. F. Hof

    (PBL Netherlands Environmental Assessment Agency
    Utrecht University)

  • B. Nykvist

    (Stockholm Environment Institute)

  • B. Girod

    (ETH Zurich)

  • D. P. Vuuren

    (PBL Netherlands Environmental Assessment Agency
    Utrecht University)

Abstract

Although the rapid fall in the costs of batteries has made electric vehicles (EVs) more affordable and boosted their sales, EVs still account for only a fraction of total car sales. In the last years, the battery costs of electric vehicles have dropped faster than previously estimated in the empirical literature. As a result, future cost projections have been adjusted. The larger than expected reduction in costs also shows the uncertainty of battery cost development, which will affect the success of a transition to low-carbon transport. Integrated assessment models show that reducing greenhouse gas emissions is more challenging in the transport sector than in other sectors. Switching to EVs could significantly reduce passenger road-transport emissions. In this study, we test the sensitivity of the projected sales of EVs to different battery costs and climate policy futures. The model suggests that the effectiveness of policy incentives will strongly depend on the battery floor costs, as EVs only gain significant shares (15% or more) of global car sales within our model framework when battery costs reach 100 $/kWh or less. We therefore conclude that besides the pace of the battery costs decline, which has been rapid in the last years, it is important to understand the lower boundary of battery costs for modelling long-term global energy transitions.

Suggested Citation

  • O. Y. Edelenbosch & A. F. Hof & B. Nykvist & B. Girod & D. P. Vuuren, 2018. "Transport electrification: the effect of recent battery cost reduction on future emission scenarios," Climatic Change, Springer, vol. 151(2), pages 95-108, November.
  • Handle: RePEc:spr:climat:v:151:y:2018:i:2:d:10.1007_s10584-018-2250-y
    DOI: 10.1007/s10584-018-2250-y
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    References listed on IDEAS

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    2. Fernando Martins & Pedro Moura & Aníbal T. de Almeida, 2022. "The Role of Electrification in the Decarbonization of the Energy Sector in Portugal," Energies, MDPI, vol. 15(5), pages 1-35, February.
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    4. Karolina Godzisz & Maciej Dzikuć & Piotr Kułyk & Arkadiusz Piwowar & Piotr Kuryło & Szymon Szufa, 2021. "Selected Determinants of Sustainable Transport in the Context of the Development of a Low-Carbon Economy in Poland," Energies, MDPI, vol. 14(17), pages 1-14, August.
    5. Paul Wolfram & Stephanie Weber & Kenneth Gillingham & Edgar G. Hertwich, 2021. "Pricing indirect emissions accelerates low—carbon transition of US light vehicle sector," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    6. Victor-Gallardo, Luis & Quirós-Tortós, Jairo, 2023. "Techno-economic comparison of centralized and distributed power generation to support large-scale transport electrification in Costa Rica," Transport Policy, Elsevier, vol. 131(C), pages 120-138.
    7. Shashank Narayana Gowda & Hamidreza Nazaripouya & Rajit Gadh, 2023. "Congestion Relief Services by Vehicle-to-Grid Enabled Electric Vehicles Considering Battery Degradation," Sustainability, MDPI, vol. 15(24), pages 1-23, December.
    8. Patel, Minakshi & Arora, Pratham & Singh, Rhythm & Mahapatra, Diptiranjan & Chaturvedi, Vaibhav & Kumar Saini, Santosh, 2024. "Impact of battery swapping in the passenger sector: EV adoption, emissions, and energy mix," Energy, Elsevier, vol. 298(C).
    9. Runsen Zhang & Tatsuya Hanaoka, 2022. "Cross-cutting scenarios and strategies for designing decarbonization pathways in the transport sector toward carbon neutrality," Nature Communications, Nature, vol. 13(1), pages 1-10, December.

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