EU strategy for the electric mobility development in the context of the green economy transition

doi:10.26565/2310-9513-2025-21-03

Oleksii Honcharov V. N. Karazin Kharkiv National University https://orcid.org/0009-0005-1952-6904
Nataliia Goncharenko V. N. Karazin Kharkiv National University https://orcid.org/0000-0003-4148-5369

DOI: https://doi.org/10.26565/2310-9513-2025-21-03

Keywords: electric vehicle, electric mobility, decarbonization, green economy transition, green energy technologies, transportation policy, sustainable transportation

Abstract

The global automotive industry is undergoing a profound transformation, driven by the urgent need for decarbonization, energy security, and technological advancements. Electric vehicle (EV) production has become a central element of this transformation, emerging not only as a technological challenge but also as a critical arena for international industrial competition. This article examines the European Union’s strategy for electric mobility development within the context of the green economy transition, particularly focusing on the challenges and opportunities that lie ahead for EV production in the EU. The goal of this study is to define the EU's current position in the global electric mobility landscape, identify key policy gaps, and develop scientifically grounded recommendations for enhancing EV production. The methodological framework of this study is built upon a qualitative approach, emphasizing comparative and structural analysis of key factors influencing the development of electric mobility within the EU. The research employs systems analysis and contextual evaluation to understand how innovative technologies are integrated into EU transportation policies and the broader context of the green economy transition. The findings reveal that, despite long-term regulatory frameworks like the 2035 internal combustion engine (ICE) phase-out and the Alternative Fuels Infrastructure Regulation (AFIR), short-term policy volatility and market fragmentation persist as significant challenges. The slowdown in battery electric vehicle (BEV) market share, particularly in Germany, underscores the need for continued and stable policy incentives to maintain adoption momentum. The success of the EU’s electric mobility transition will depend on three critical dimensions: sustained policy coherence, equitable infrastructure development, and maintaining industrial competitiveness in a shifting global market. The article identifies the main challenges and opportunities related to the integration of green energy technologies into the EU's transport system and their impact on shaping a sustainable future of mobility. It highlights the role of electric vehicle production as a central component of the EU’s green economy transition, addressing both technological and strategic aspects in the context of decarbonization and energy security. The study proposes scientific and practical recommendations for enhancing electric vehicle production within the EU, focusing on the development of policies that ensure long-term stability and effective implementation of green energy technologies. These recommendations aim to overcome the challenges associated with market fragmentation and policy volatility, which threaten the adoption of EVs, especially in the face of a slowdown in the BEV market share, particularly in Germany. The practical implication of this research lies in providing a robust framework for EU policymakers to accelerate the integration of green technologies into the transport sector, thereby boosting the competitiveness of Europe in the global electric vehicle market. The results offer insights into necessary interventions for achieving climate neutrality and securing technological sovereignty within the EU, while also promoting economic growth and job creation in a low-carbon future. Governments must engage in active, long-term policy interventions to foster industrial ecosystems that support clean mobility, economic competitiveness, and technological sovereignty. The proposed recommendations provide a framework for government action that, if successfully implemented, will not only accelerate the transition to electric mobility but also contribute to the EU’s broader goals of climate neutrality, technological innovation, and inclusive economic growth. Future research should focus on further refining the strategies for cross-border collaboration, the integration of renewable energy into EV infrastructure, and the evolution of consumer behavior in response to policy measures. Ultimately, the EU’s strategy for electric mobility development will determine its ability to lead in the global transition to sustainable transportation.

Downloads

Download data is not yet available.

References

/

References

ACEA. (2025). New Passenger Car Registrations – Full Year 2024. European Automobile Manufacturers Association. Retrieved from: https://www.acea.auto

Best Selling Cars. (2025). 2024 (Full Year) Europe: Electric Car Sales per EU, UK, and EFTA Country. Retrieved from: https://www.best-selling-cars.com

Bethoux, O. (2020). Hydrogen fuel cell road vehicles: State of the art and perspectives. Energies 13 (21): 5843. DOI: I: 10.3390/en13215843

Council of the European Union. (2024). Heavy-duty vehicles: Council signs off on stricter CO2 emission standards. Retrieved from: https://www.consilium.europa.eu/en/press/press-releases/2024/05/13/heavy-duty-vehicles-council-signs-off-on-stricter-co2-emission-standards/

Cui, Xiaotian, et al., (2023). Deep reinforcement learning for power optimization in hybrid electric vehicles. IEEE Trans. Intell. Transp. Syst. 24, 4102–4115. DOI: 10.1109/ACCESS.2020.3022944

Das, H. S., Rahman, M. M., Li, S., and Tan, C. W. (2020). Electric vehicles standards, charging infrastructure, and impact on grid integration: A technological review. Renewable and Sustainable Energy Reviews, vol. 120, p. 109618. DOI: 10.1016/J.RSER.2019.109618.

Dovgal, O., Goncharenko, N., Honcharenko, V., Shuba, T., and Babenko, V. (2019). Leadership of China In the Innovative Development of the BRICS Countries. Journal of Advanced Research in Law and Economics, Volume X, Winter, 8(46): 2305-2316. DOI: 10.14505/jarle.v10.8(46).09

Dovgal, O., Goncharenko, N., Reshetnyak, O., Dovgal, G., Danko, N., Shuba, T. (2020). Sustainable Ecological Development of the Global Economic System: the Institutional Aspect. Journal of Environmental Management and Tourism, Volume XI, Issue 3(43), Summer: 725-740. DOI: 10.14505//jemt.v11.3(43).27

Dovgal, O., Goncharenko, N., Karp,V., Revyakin, G. (2022). Integrated Evaluation of Innovative Development of the New EU Member States and Other EU Countries. Comparative Economic Research. Central and Eastern Europe, Vol. 25, No. 2. 117-136. DOI:10.18778/1508-2008.25.16

Dovgal, O., Goncharenko, N., Reshetnyak, O., Dovgal, G., Danko, N. (2021). Priorities for Greening and Sustainable Development of OECD Member Countries and Ukraine: a Comparative Analysis. Comparative Economic Research. Central and Eastern Europe, Vol. 24, No. 1: 45-63. DOI: 10.18778/1508-2008.24.03

EAFO. (2025). European Alternative Fuels Observatory – EV Statistics. Retrieved from: https://alternative-fuels-observatory.ec.europa.eu

Environmental Information Systems, 2022. Decarbonising Road Transport ‒ the Role of Vehicles, Fuels and Transport Demand. Technical report, EEA Report No 2/2022. Retrieved from: https://shipzero.com/wp-content/uploads/2022/12/10036.pdf

European Commission. (2023). Clean and sustainable mobility. Retrieved from: https://www.consilium.europa.eu/en/policies/clean-and-sustainable-mobility/

European Commission. (2023). Fit for 55 Package – Climate Target Plan 2030. Retrieved from: https://ec.europa.eu/clima

European Commission (2024). EU Mobility & Transport achievements 2019-2024. Retrieved from: https://transport.ec.europa.eu/transport-themes/eu-mobility-transport-achievements-2019-2024_en

European Commission (2024). European policies and legislation. Retrieved from: European policies and legislation | European Alternative Fuels Observatory

European Commission (2024). European Alternative Fuels Observatory. Retrieved from: Alternative Fuels: €422 Million of EU Funding to Boost Zero-Emission Mobility | European Alternative Fuels Observatory

European Commission (2025). EU Urban Mobility Observatory. Retrieved from: EU invests €422 million for alternative fuels infrastructure including urban node projects - European Commission

European Commission (2024). European Alternative Fuels Observatory. EV Registration Highlights: 25% of New Cars Had a Plug. Retrieved from: https://alternative-fuels-observatory.ec.europa.eu

European Association of Automotive Suppliers CLEPA (2024): BATT4EU funding at risk amid budget cut from the European Commission. Retrieved from: BATT4EU funding at risk amid budget cut from the European Commission | CLEPA

European Automobile Manufacturers Association (ACEA). (2025). New car registrations: +0.8% in 2024; battery-electric 13.6% market share. Retrieved from: https://www.acea.auto

European Partnership (2024). Powering the Future: €184.5M Clean Hydrogen Partnership Call to Boost Hydrogen Value Chain across Europe. Retrieved from: Powering the Future: €184.5M Clean Hydrogen Partnership Call to Boost Hydrogen Value Chain across Europe - Clean Hydrogen Partnership

Fraunhofer Research Institution for Battery Cell Production FFB (2025). Study on the battery supply chain shows China's global dominance ‒ and options for Europe. Retrieved from: Press release 18/02/2025

Goncharenko, N., Shapoval, V. (2021). ECO-INNOVATION FINANCING AS AN ELEMENT OF A “GREEN” ECONOMY FORMATION IN THE GLOBALIZATION CONDITIONS OF SUSTAINABLE DEVELOPMENT. Green, Blue and Digital Economy Journal, Vol. 2, no.2, рр. 15-23. DOI: 10.30525/2661-5169/2021-2-3

International Energy Agency. (2023). Global EV Outlook 2023. Technical report, IEA, Paris. Retrieved from: https://www.iea.org/reports/global-ev-outlook-2023

Nour, M., Chaves‐Ávila, J. P., Magdy, G., and Sánchez‐Miralles, Á. (2020). Review of positive and negative impacts of electric vehicles charging on electric power systems. Sep. 01, 2020, MDPI AG. DOI: 10.3390/en13184675.

Nutkani, H. Toole, Fernando, N., and Andrew, L. P. C. (2024). Impact of EV charging on electrical distribution network and mitigating solutions – A review. IET Smart Grid. DOI: 10.1049/STG2.12156.

Statista. (2024). Electric Vehicle Market Share in the European Union (2018–2024). Retrieved from: https://www.statista.com

Towards a climate-neutral and competitive European road transport system - contribution of EU R&I projects (2025). Retrieved from: Towards a climate-neutral and competitive European road transport system - contribution of EU R&I projects - European Commission

Transport & Environment. (2024). EV Readiness Index 2024. Retrieved from: https://www.transportenvironment.org

Transport & Environment. (2024). €39bn a year in public investment would ensure green transport is made in Europe – study. Retrieved from: €39bn a year in public investment would ensure green transport… | T&E