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H-due: Electric-Hydrogen Powered Personal Mobility Concept Vehicle
Technical Paper
2009-01-0090
ISSN: 0148-7191, e-ISSN: 2688-3627
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Language:
English
Abstract
H-due, a concept of light electric vehicle devoted to personal mobility, will here be presented. The main goals involve the creation of a low-noise, user-friendly, zero-emission vehicle, with a pleasant style. Its main features include high payload/vehicle mass ratio, electric energy supplied either by batteries or by fuel cell, innovative style aimed at transporting a driver and a passenger, chassis design to minimize cost of production, variable wheelbase. The paper presents the main ideas on which the vehicle design was based and summarizes the most important results obtained.
Authors
Citation
Angiono, R., P.Guglielmi, ., Maggiore, P., Macrì, P. et al., "H-due: Electric-Hydrogen Powered Personal Mobility Concept Vehicle," SAE Technical Paper 2009-01-0090, 2009, https://doi.org/10.4271/2009-01-0090.Also In
References
- Jamerson F. Electric Bike Worldwide Report Benjamin Ed 2007
- Sovran G. Blaser D. A Contribution to Understanding Automotive Fuel Economy and Its Limits SAE paper 2003-01-2070
- Moghbelli, H. Ganapavarapu, K. Langari, R. Ehsani, M. A Comparative Review of Fuel Cell Vehicles (FCVs) and Hybrid Electric Vehicles (HEVs), Parts I & Part II” SAE Paper 2003-01-2298
- Chan, C. C. The State of the Art of Electric and Hybrid Proceedings of the IEEE 90 2 2002 245 275
- Rizzoni G. Guzzella L. Unified Modeling of Hybrid Electric Vehicle Drivetrains IEEE/ASME Transactions on Mechatronics 4 3 1999
- Wei X. Rizzoni G. A Scalable Approach for Energy Converter Modeling and Supervisory Control Design ASME IMECE’2001 2001 ASME International Mechanical Engineering Congress November 11-16 New York, NY, USA
- Yuang-Shung Lee Guo-Tian Cheng “Quasi-Resonant Zero-Current-Switching Bidirectional Converter for Battery Equalization Applications” IEEE Transaction on power electronics 21 5 2006