Performance analysis framework for structural battery composites in electric vehicles
Journal article, 2020
In this paper, a novel modelling framework to estimate system level performance of electric vehicles utilizing a structural battery composite material is presented. Electrical and mechanical properties are derived from material data of the constituents, device design and connection/layup schemes. Knowledge of the multifunctional, i. e. electrical and mechanical, performance of the structural battery composite allows for estimation of the electric vehicle drive range for any known drive cycle. The framework is used to evaluate effect on drive range from the introduction of structural batteries into existing electric vehicles (EVs). Comparative studies performed for Tesla model S and BMW i3 demonstrate a compelling vehicle weight saving potential with maintained drive range performance. Alternatively, if vehicle weight is to be maintained from the introduction of structural batteries the resulting drive range for lightweight EVs will be increased by 70%.
Smart Materials
Energy storage
Carbon fibre
Computational modelling
Author
David Carlstedt
Chalmers, Industrial and Materials Science, Material and Computational Mechanics
Leif Asp
Chalmers, Industrial and Materials Science, Material and Computational Mechanics
Composites Part B: Engineering
1359-8368 (ISSN)
Vol. 186 107822Damage Tolerance and Durability of Structural Power Composites
US Air Force Office of Strategic Research (AFOSR) (FA9550-17-1-0338), 2017-09-30 -- 2020-09-29.
Structural pOweR CompositEs foR futurE civil aiRcraft (SORCERER)
European Commission (EC) (EC/H2020/738085), 2017-02-01 -- 2020-02-28.
Driving Forces
Sustainable development
Innovation and entrepreneurship
Areas of Advance
Transport
Energy
Materials Science
Subject Categories
Materials Chemistry
Vehicle Engineering
Composite Science and Engineering
DOI
10.1016/j.compositesb.2020.107822