DESIGN AND FABRICATION OF DYNAMIC ELECTRIC-BIKE

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Sandesh S. Rangari; Dr. Kirti K. Khandelwal; Prof. Pramod N. Wadaskar; Parvez B. Khan; Vaibhav D. Jambhulkar; Snehal S. Vahadane; Om B. Kanojiya

DESIGN AND FABRICATION OF DYNAMIC ELECTRIC-BIKE

Authors: Sandesh S. Rangari, Dr. Kirti K. Khandelwal, Prof. Pramod N. Wadaskar, Parvez B. Khan, Vaibhav D. Jambhulkar, Snehal S. Vahadane, Om B. Kanojiya

Unique Paper ID: 178689
PageNo: 5536-5539

Keywords: No Keywords Found

Abstract:
The core objective of this project is to design an electric bicycle that is not only practical and cost-effective but also highly adaptable to meet modern urban transportation needs. With the global number of motor vehicles increasing rapidly, there is a parallel rise in the consumption of petroleum-based fuels. This growing reliance on non-renewable energy sources significantly contributes to environmental degradation—particularly through greenhouse gas emissions—and poses health risks for people in densely populated areas. Moreover, concerns about the long-term availability and stability of fossil fuel supplies are escalating. In light of these challenges, substantial efforts are being made worldwide to promote electric vehicles (EVs) as cleaner and more sustainable alternatives. This project aligns with that vision by focusing on the development and evaluation of a simple electric bicycle design. The approach involves modifying a traditional bicycle by eliminating components such as the internal combustion engine and exhaust system, and replacing them with an electric drivetrain, intelligent control unit, rechargeable battery system, wiring infrastructure, and basic monitoring instruments. Motivated by the urgent need for cleaner mobility options and the strain that increasing urban populations place on finite natural resources, this project introduces a user-friendly e-bike model intended for daily urban commuting. The prototype achieves a balance between simplicity and functionality, capable of reaching speeds of 20 to 30 km/h and offering a range of approximately 40 kilometres on a single charge. This initiative not only supports efforts to mitigate air pollution and conserve energy but also aims to provide a practical solution for environmentally conscious users seeking efficient and affordable transportation.

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Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{178689,
        author = {Sandesh S. Rangari and Dr. Kirti K. Khandelwal and Prof. Pramod N. Wadaskar and Parvez B. Khan and Vaibhav D. Jambhulkar and Snehal S. Vahadane and Om B. Kanojiya},
        title = {DESIGN AND FABRICATION OF DYNAMIC ELECTRIC-BIKE},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {12},
        pages = {5536-5539},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=178689},
        abstract = {The core objective of this project is to design an electric bicycle that is not only practical and cost-effective but also highly adaptable to meet modern urban transportation needs. With the global number of motor vehicles increasing rapidly, there is a parallel rise in the consumption of petroleum-based fuels. This growing reliance on non-renewable energy sources significantly contributes to environmental degradation—particularly through greenhouse gas emissions—and poses health risks for people in densely populated areas. Moreover, concerns about the long-term availability and stability of fossil fuel supplies are escalating.
In light of these challenges, substantial efforts are being made worldwide to promote electric vehicles (EVs) as cleaner and more sustainable alternatives. This project aligns with that vision by focusing on the development and evaluation of a simple electric bicycle design. The approach involves modifying a traditional bicycle by eliminating components such as the internal combustion engine and exhaust system, and replacing them with an electric drivetrain, intelligent control unit, rechargeable battery system, wiring infrastructure, and basic monitoring instruments.
Motivated by the urgent need for cleaner mobility options and the strain that increasing urban populations place on finite natural resources, this project introduces a user-friendly e-bike model intended for daily urban commuting. The prototype achieves a balance between simplicity and functionality, capable of reaching speeds of 20 to 30 km/h and offering a range of approximately 40 kilometres on a single charge.
This initiative not only supports efforts to mitigate air pollution and conserve energy but also aims to provide a practical solution for environmentally conscious users seeking efficient and affordable transportation.},
        keywords = {},
        month = {May},
        }

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Cite This Article

Rangari, S. S., & Khandelwal, D. K. K., & Wadaskar, P. P. N., & Khan, P. B., & Jambhulkar, V. D., & Vahadane, S. S., & Kanojiya, O. B. (2025). DESIGN AND FABRICATION OF DYNAMIC ELECTRIC-BIKE. International Journal of Innovative Research in Technology (IJIRT), 11(12), 5536–5539.

11 May, 2025

A REVIEW OF DESIGN AND FABRICATION METHODOLOGIES FOR DYNAMIC ELECTRIC-BIKE

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