A method for determining optimal electric range by considering electric vehicle lightweighting on perceived ownership cost

Shiqi Ou, Shengyong Zhang, Zhenhong Lin, Stacy Davis

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

The limited driving range due to high costs and low energy densities of batteries constraints the battery electric vehicle (BEV) market growth. Lightweighting in theory can reduce energy consumption rate and extend the driving range. The knowledge gap is to quantitatively link the cost-effectiveness of light-weight technologies with range extension and consumer acceptance of BEVs. In this study, a physics-based energy consumption model of BEVs is constructed and associated with a statistics-based model on the basis of travel surveys. A perceived cost of ownership (PCO) is then developed by adding intangible costs to traditional total cost of ownership models. We estimate, at the disaggregate vehicle model and driver level and the aggregate market level, 1) the extended range due to lightweighting for a given battery size; and 2) the optimal electric range based on lightweighting decisions. The cost-effectiveness of lightweighting for BEV range extension is found to vary with income-dependent daily range limitation value, driving patterns and lightweighting technology costs. In general, adopting lightweighting in BEVs is more cost-effective for consumers with higher daily limitation value, as well as for those with higher driving intensity or suitable daily driving patterns. When the lightweighting involves a higher vehicle production cost, less lightweighting could reduce the overall PCO for BEV owners. 4 of the selected top ten BEV models are found to benefit from additional 2.09%–4.45% lightweighting. The method built in this study can guide automakers in planning R&D investments in battery and lightweighting technologies.

Original languageEnglish
Article number135606
JournalJournal of Cleaner Production
Volume385
DOIs
StatePublished - Jan 20 2023

Funding

This research was supported by the DOE Office of Energy Efficiency and Renewable Energy, Vehicle Technologies Office and used resources at the National Transportation Research Center at Oak Ridge National Laboratory, a User Facility of DOE's Office Energy Efficiency and Renewable Energy. The authors are solely responsible for the views expressed in this study. This research was supported by the DOE Office of Energy Efficiency and Renewable Energy , Vehicle Technologies Office and used resources at the National Transportation Research Center at Oak Ridge National Laboratory , a User Facility of DOE's Office Energy Efficiency and Renewable Energy. The authors are solely responsible for the views expressed in this study.

FundersFunder number
DOE Office of Energy Efficiency and Renewable Energy , Vehicle Technologies Office
DOE Office of Energy Efficiency and Renewable Energy, Vehicle Technologies Office
U.S. Department of Energy
Office of Energy Efficiency and Renewable Energy
Oak Ridge National Laboratory

    Keywords

    • Battery electric vehicle
    • Design optimization
    • Electric driving range
    • Energy consumption
    • Light-weighting
    • Perceived cost of vehicle ownership

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