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The SolarEV City Paradox: A Critical Review of the Fragmented Integration of Rooftop Photovoltaics and Electric Vehicles for Urban Decarbonization

Author

Listed:
  • T. Kobashi
  • R. C. Mouli
  • J. Liu
  • S. Chang
  • C. D. Harper
  • R. Zhou
  • G. R. Dewi
  • U. W. R. Siagian
  • J. Kang
  • P. P. Patankar
  • Z. H. Rather
  • K. Say
  • T. Zhang
  • K. Tanaka
  • P. Ciais
  • D. M. Kammen

Abstract

Urban decarbonization is central to meeting global climate goals, yet progress toward integrated low-carbon energy systems remains slow. The SolarEV City Concept, linking rooftop photovoltaics with electric vehicles as mobile storage offers a technically robust pathway for deep CO2 reduction, potentially meeting 60-95 percent of municipal electricity demand when deployed synergistically. Despite rapid global growth of PVs and EVs, integration through bidirectional Vehicle-to-Home and Vehicle-to-Grid systems has lagged, revealing a persistent SolarEV paradox. This review examines that paradox through a socio-technical framework across four dimensions, technology, economics, policy, and society. Cross-national comparison shows that while technical feasibility is well established, large-scale implementation is limited by fragmented charging-protocol standards, immature and often non-profitable V2G business models, regulatory misalignments between energy and transport sectors, and social-equity barriers that restrict participation mainly to high-income homeowners. Emerging national archetypes from Japans resilience-driven model to Europes regulation-first trajectory highlight strong path dependence in current integration strategies. The analysis concludes that advancing SolarEV Cities requires a shift from parallel PV-EV promotion toward coordinated policy frameworks, interoperable digital infrastructure, and inclusive market designs that distribute economic and resilience benefits more equitably. Achieving this integrated energy transition will require strategic collaboration among researchers, governments, industries, and communities to build adaptive, resilient, and socially just urban energy systems.

Suggested Citation

  • T. Kobashi & R. C. Mouli & J. Liu & S. Chang & C. D. Harper & R. Zhou & G. R. Dewi & U. W. R. Siagian & J. Kang & P. P. Patankar & Z. H. Rather & K. Say & T. Zhang & K. Tanaka & P. Ciais & D. M. Kamme, 2025. "The SolarEV City Paradox: A Critical Review of the Fragmented Integration of Rooftop Photovoltaics and Electric Vehicles for Urban Decarbonization," Papers 2511.15091, arXiv.org.
    • Handle: RePEc:arx:papers:2511.15091
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    References listed on IDEAS

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    1. Geels, Frank W., 2002. "Technological transitions as evolutionary reconfiguration processes: a multi-level perspective and a case-study," Research Policy, Elsevier, vol. 31(8-9), pages 1257-1274, December.
    2. Zhixin Zhang & Zhen Qian & Min Chen & Rui Zhu & Fan Zhang & Teng Zhong & Jian Lin & Liang Ning & Wei Xie & Felix Creutzig & Wenjun Tang & Laibao Liu & Jiachuan Yang & Ye Pu & Wenjia Cai & Yingxia Pu &, 2025. "Worldwide rooftop photovoltaic electricity generation may mitigate global warming," Nature Climate Change, Nature, vol. 15(4), pages 393-402, April.
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