Energy management strategies for vehicular electric power systems
Mwt Michiel Koot,J.T.B.A. Kessels,B. de Jager,Wpmh Maurice Heemels,P.P.J. van den Bosch,M Maarten Steinbuch +5 more
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TLDR
An extensive study on controlling the vehicular electric power system to reduce the fuel use and emissions, by generating and storing electrical energy only at the most suitable moments is presented.Abstract:
In the near future, a significant increase in electric power consumption in vehicles is expected. To limit the associated increase in fuel consumption and exhaust emissions, smart strategies for the generation, storage/retrieval, distribution, and consumption of electric power will be used. Inspired by the research on energy management for hybrid electric vehicles (HEVs), this paper presents an extensive study on controlling the vehicular electric power system to reduce the fuel use and emissions, by generating and storing electrical energy only at the most suitable moments. For this purpose, both off-line optimization methods using knowledge of the driving pattern and on-line implementable ones are developed and tested in a simulation environment. Results show a reduction in fuel use of 2%, even without a prediction of the driving cycle being used. Simultaneously, even larger reductions of the emissions are obtained. The strategies can also be applied to a mild HEV with an integrated starter alternator (ISA), without modifications, or to other types of HEVs with slight changes in the formulation.read more
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Feng Liang,J.M. Miller,Xingyu Xu +2 more
TL;DR: In this paper, a vehicle electric power generation system with improved output and efficiency is presented, where a controllable rectifier is synchronized with the alternator based on zero-crossing information of the third harmonic voltage.
Advanced energy management strategies for vehicle power nets
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TL;DR: A preliminary case study based on a Model Predictive Control-based strategy that uses a prediction of the future driving pattern and load request in order to minimize fuel use by generating only at the most efficient moments is presented.
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TL;DR: A series of chassis dynamometer and road tests that NREL conducted on the 2000 model-year Honda Insight was described in this article, where the authors described a series of road tests on the Honda Insight.
Proceedings ArticleDOI
Energy management strategies for vehicle power nets
TL;DR: In this article, a case study on controlling the vehicle power net using knowledge of the driving pattern to minimize fuel use, by generating and storing extra energy only at the most suitable moments, was presented.
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42 V — an indication for changing requirements on the vehicle electrical system
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