Optimal Design and Dynamic Simulation of a Hybrid Solar Vehicle | Zendy

Ivan Arsie | Zendy; Gianfranco Rizzo | Zendy; Marco Sorrentino | Zendy

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Optimal Design and Dynamic Simulation of a Hybrid Solar Vehicle

Author(s) -

Ivan Arsie,

Gianfranco Rizzo,

Marco Sorrentino

Publication year - 2006

Publication title -

sae technical papers on cd-rom/sae technical paper series

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.295

H-Index - 107

eISSN - 1083-4958

pISSN - 0148-7191

DOI - 10.4271/2006-01-2997

Subject(s) - sizing , automotive engineering , propulsion , fuel efficiency , computer science , solar energy , solar power , power (physics) , hybrid vehicle , simulation , engineering , aerospace engineering , electrical engineering , art , physics , quantum mechanics , visual arts

The paper deals with a detailed study on the optimal sizing of a solar hybrid car, based on a longitudinal vehicle dynamic model and considering energy flows, weight and costs. The model describes the effects of solar panels area and position, vehicle dimensions and propulsion system components on vehicle performance, weight, fuel savings and costs. It is shown that significant fuel savings can be achieved for intermittent use with limited average power, and that economic feasibility could be achieved in next future, considering the expected trends in costs and prices.

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