Feasibility Analysis and Path Exploration of Market-oriented Application of Pure Clean Energy Power Generation Vehicles
Research Article
Open Access
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Feasibility Analysis and Path Exploration of Market-oriented Application of Pure Clean Energy Power Generation Vehicles

Mengshu Zhao 1*
1 The Second High School Attached To BNU, Beijing, China, 100006
*Corresponding author: tshe1209@163.com
Published on 28 October 2025
Journal Cover
ACE Vol.201
ISSN (Print): 2755-273X
ISSN (Online): 2755-2721
ISBN (Print): 978-1-80590-493-9
ISBN (Online): 978-1-80590-494-6
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Abstract

As global awareness of environmental issues grows, reducing vehicle exhaust emissions has become increasingly important. Pure clean energy-powered vehicles, which use renewable energy such as solar, wind, and hydroelectric power for charging or direct power supply, can achieve zero carbon emissions throughout the life cycle. This positions them as a key direction of the automotive industry’s green transformation. Additionally, these vehicles leverage inexpensive energy sources that are readily available, further driving down the cost of operation. However, the market adoption of these vehicles remains in its early stages, hindered by challenges such as high manufacturing costs, immature energy storage technologies, and insufficient supporting infrastructure. This paper explores the feasibility of market-oriented application of pure clean energy-powered vehicles, analyzing the key factors influencing their promotion, including technology, economic considerations, and policy frameworks. By examining the various benefits of pure clean energy vehicles, this article concludes that significant obstacles still exist in achieving mass production and widespread adoption. It proposes actionable pathways to address these challenges and enhance the viability of clean energy vehicles in the market.

Keywords:

Renewable energy, electric market, pure clean energy, vehicles

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Zhao,M. (2025). Feasibility Analysis and Path Exploration of Market-oriented Application of Pure Clean Energy Power Generation Vehicles. Applied and Computational Engineering,201,63-68.

References

[1]. Qin, D. (2003). Climate change: Facts, impacts, and countermeasures (Doctoral dissertation).

[2]. Oluwalana, O. J., & Grzesik, K. (2025). Solar-Powered Electric Vehicles: Comprehensive Review of Technology Advancements, Challenges, and Future Prospects. Energies, 18(14), 3650.

[3]. Li, Z., Li, D., & Li, C. (2023). Review of key technologies in the design of pure electric vehicle bodies. Automotive Digest, (3).

[4]. THW News. (2023). Dutch solar EV completes 1, 000km test drive through the desert. https: //thenextweb.com/news/dutch-solar-car-test-drive-morocco-eindhoven& sa=U& ved=2ahUKEwi3n4K9n9iCAx

[5]. Ivan, D. (2024). Goodbye Range Anxiety: Mercedes-Benz Unveils Solar Paint That Powers EVs Anywhere Anytime https: //www.emanualonline.com/blog/mercedes-benz-unveils-solar-paint

[6]. Original force documentation. (2025). Innovation and Entrepreneurship in Solar-Powered Cars. https: //m.book118.com/html/2025/0331/60432

[7]. Wang, S., Gan, L., Guo, C., & Luo, X. (2012). Technical and economic research on pure electric vehicles based on "energy carbon footprint." Electric Power and Clean Energy, 28(4), 5.

[8]. Ji, H. (2013). Is India's "hardware dream" a daydream? Youth Reference, 24. https: //qnck.cyol.com/html/2013-05/01/nw.D110000qnck_20130501_1-24.htm

[9]. Investing. (2025). Willingness to switch to EVs fades faster in Europe than US, Shell survey shows. https: //www.investing.com/news/commodities-news/willingness-to-switch-to-evs-fades-faster-in-europe-than-us-shell-survey-shows-4098193

References

[1]. Qin, D. (2003). Climate change: Facts, impacts, and countermeasures (Doctoral dissertation).

[2]. Oluwalana, O. J., & Grzesik, K. (2025). Solar-Powered Electric Vehicles: Comprehensive Review of Technology Advancements, Challenges, and Future Prospects. Energies, 18(14), 3650.

[3]. Li, Z., Li, D., & Li, C. (2023). Review of key technologies in the design of pure electric vehicle bodies. Automotive Digest, (3).

[4]. THW News. (2023). Dutch solar EV completes 1, 000km test drive through the desert. https: //thenextweb.com/news/dutch-solar-car-test-drive-morocco-eindhoven& sa=U& ved=2ahUKEwi3n4K9n9iCAx

[5]. Ivan, D. (2024). Goodbye Range Anxiety: Mercedes-Benz Unveils Solar Paint That Powers EVs Anywhere Anytime https: //www.emanualonline.com/blog/mercedes-benz-unveils-solar-paint

[6]. Original force documentation. (2025). Innovation and Entrepreneurship in Solar-Powered Cars. https: //m.book118.com/html/2025/0331/60432

[7]. Wang, S., Gan, L., Guo, C., & Luo, X. (2012). Technical and economic research on pure electric vehicles based on "energy carbon footprint." Electric Power and Clean Energy, 28(4), 5.

[8]. Ji, H. (2013). Is India's "hardware dream" a daydream? Youth Reference, 24. https: //qnck.cyol.com/html/2013-05/01/nw.D110000qnck_20130501_1-24.htm

[9]. Investing. (2025). Willingness to switch to EVs fades faster in Europe than US, Shell survey shows. https: //www.investing.com/news/commodities-news/willingness-to-switch-to-evs-fades-faster-in-europe-than-us-shell-survey-shows-4098193

Cite this article

Zhao,M. (2025). Feasibility Analysis and Path Exploration of Market-oriented Application of Pure Clean Energy Power Generation Vehicles. Applied and Computational Engineering,201,63-68.

Data availability

The datasets used and/or analyzed during the current study will be available from the authors upon reasonable request.

About volume

Volume title: Proceedings of CONF-FMCE 2025 Symposium: Semantic Communication for Media Compression and Transmission

ISBN: 978-1-80590-493-9(Print) / 978-1-80590-494-6(Online)
Editor: Anil Fernando
Conference website: https://2025.conffmce.org/glasgow.html
Conference date: 24 October 2025
Series: Applied and Computational Engineering
Volume number: Vol.201
ISSN: 2755-2721(Print) / 2755-273X(Online)

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