DESIGN OF MOBILE CHARGING DEVICES FOR ELECTRIC VEHICLES BASED ON INTERNAL COMBUSTION ENGINE VEHICLES
DOI:
https://doi.org/10.55640/Keywords:
Mobile charging station, electric vehicle, ICE platform, charging infrastructure, energy conversion, rural mobility, off-grid solution, fuel-to-electricity efficiencyAbstract
The growing adoption of electric vehicles (EVs) requires the parallel development of flexible and accessible charging infrastructure. In remote or underdeveloped areas, access to grid-powered charging stations may be limited. This paper proposes the design of a mobile EV charging unit based on the platform of an internal combustion engine (ICE) vehicle. The mobile unit includes a compact onboard generator, power management system, and multi-standard charging outputs. Through simulation and prototype analysis, this paper evaluates energy conversion efficiency, charging capacity, and operational feasibility. The study demonstrates that ICE-based mobile chargers offer a viable transitional solution for EV infrastructure expansion in regions with limited electrification. Moreover, the paper discusses system cost-effectiveness, scalability, and environmental impact, providing a foundation for future optimization and integration into national mobility policies.
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References
1.Tuttle D.P., Kockelman K.M. Vehicle Electrification: Status and Issues // Transportation Research Record. - 2012. - Vol. 2287. – P. 1–9.
2.Bosch Automotive Handbook. - 10th ed. – Stuttgart: Robert Bosch GmbH, 2021. – 1520 p.
3.Alotto P., Guarnieri M., Moro F. Redox Flow Batteries for Mobile Charging // Renewable and Sustainable Energy Reviews. - 2014. - Vol. 29. – P. 325–335.
4.Global EV Outlook 2023. – Paris: International Energy Agency (IEA), 2023. – 143 p.
5.Akhmedov U., Rakhimov A. Design and Simulation of Mobile Charging Solutions for EVs // Journal of Engineering Research. - 2022. - Vol. 13, No. 2. – P. 119–132.
6.Jafari M., et al. Hybrid Mobile Charging Systems: Opportunities and Challenges // IEEE Trans. on Transportation Electrification. - 2021. - No. 7(3). – P. 845–858.
7.Karimov F., Erkinov R. Off-Grid Mobility Infrastructure in Central Asia // Journal of Emerging Energy Systems. - 2023. - Vol. 6, No. 1. – P. 47–56.
8.UNECE Vehicle Regulations. Electric Vehicle Safety and Infrastructure Standards. - Geneva: United Nations Economic Commission for Europe, 2022. - 98 p.
9.Kayumov B. A., Ergashev D. P. Analysis of air force of cylinders and cones in a virtual laboratory program. - 2022.
10.Ergashev D. CFD and experimental testing in vehicle aerodynamics // International Journal of Artificial Intelligence. – 2025. – T. 1. – No. 4. – P. 801-806.
11.Kayumov B. A., Ergashev D. P. Determination of air resistance to a minivan-type car body //Research and Education.-2023/-T.
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