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Battery Electric

Battery electric vehicles (BEVs) use a battery pack to store the electrical energy that powers the motor. BEVs are solely powered by electricity supplied by the battery; the batteries are charged by plugging the vehicle into an electric power source. For additional background, see the Alternative Fuels Data Center's All-Electric Vehicles webpage.

On this page, explore key cost and performance metrics for BEVs including modeled vehicle pricefuel economylevelized cost of driving (LCOD), and emissions. Caveats for comparing powertrains are listed on the Light-Duty Vehicle Comparison page.

Vehicle Metrics: Fuel Economy and Modeled Vehicle Price

The following chart shows fuel economy and modeled vehicle price, metrics associated with the vehicle. Fuel economy represents how efficiently a vehicle converts fuel during operation. Modeled vehicle price represents an estimated cost to the consumer to purchase a new vehicle, based on modeling that includes manufacturing costs and profit.

The source of the 2024 Transportation Annual Technology Baseline (ATB) modeled vehicle price and fuel economy is the Argonne National Laboratory (ANL) report (Islam et al., 2023)(Wang et al., 2023); the original data are available here. These data are developed using ANL's Autonomie simulation tool.

Select the data to display using the menus above the chart. Use the Metric filter to switch between fuel economy and modeled vehicle cost data. Select the vehicle class, powertrain, and other powertrain details using the additional filters.

Vehicle and Fuel Metrics: Levelized Cost of Driving and CO2e Emissions

The following chart shows levelized cost of driving and CO2e emissions in addition to the associated fuel data. Levelized cost of driving is a metric that combines modeled vehicle price, fuel economy, fuel cost, and other assumptions for the selected fuel. CO2e emissions represents the emissions for the fuel well-to-wheels portion of the life cycle for the selected fuel. Emissions associated with vehicle life cycles are not included here.  

These calculations use data from Argonne National Laboratory, which develops and applies the Autonomie simulation tool and R&D GREET model (Wang et al., 2023). Links to data from the ANL report (Islam et al., 2023) on modeled vehicle price and fuel economy are available here.

Select the data to display using the buttons and menus above the chart. Use the Metric filter to switch between LCOD and CO2e emissions data. Select the pathway, scenario, vehicle class, and powertrain details using the additional filters. Clicking the black arrows on the top right of the figure shows additional details of the selected fuel pathways. The underlying source for a data point in the chart can be seen by placing your mouse cursor over that data point. The data sources are also cited—with linked references—in the Key Assumptions section next.

Notes:

  • The levelized cost of driving in the ATB includes vehicle, fuel, and maintenance costs. See the levelized cost of driving definition for details of what is included in and excluded from LCOD in the ATB.
  • Changes over time are attributable only to projected vehicle cost and performance; the fuel cost and emissions are constant over time.
  • The Fuel Pathway filter displays the selected fuel pathways for the Baseline FuelLowest Cost Fuel, and Lowest CO2e Emissions Fuel. The full set of fuel pathways is available in the data download.
  • Emissions references and fuels costs and prices references do not always use the same data source for a given pathway. We recommend caution in interpretation of combined sources of information.

Key Assumptions

The data and estimates presented here are based on the following key assumptions:

  • Cost and Fuel Economy Trajectories: The cost and fuel economy trajectories are based on the analysis year Autonomie modeling results from Islam et al. (Islam et al., 2023). The ATB Advanced trajectory corresponds to the Base performance, High technology progress case. The ATB Mid trajectory corresponds to the Base performance, Low technology progress case. The ATB Conservative trajectory is based on the Annual Energy Outlook (EIA, 2023a).
  • High Production Volume: The estimates from Islam et al. (Islam et al., 2023), and those shown here, represent costs and technology performance at high production volume.
  • Battery Cost Trajectories: The assumed battery cost trajectories can be found in the definition for battery electric vehicles.
  • Vehicle Variations: The Transportation ATB presents estimates for a representative light-duty vehicle; we do not account for variations in make, model, and trim or for pricing incentives or geographic heterogeneity that influence prices in the market. As a result, representative values shown here may differ from specific models available on the market.
  • Fuel Economy Improvements: The assumptions about fuel economy improvements reflect the adoption of lightweighting and engine efficiency technologies consistently across vehicle powertrains for a given trajectory. In the case of battery electric vehicles, fuel economy improvements also reflect lighter battery packs from increased energy density.
  • Efficiency Losses: The charge-depleting fuel economy estimates in Islam et al. (Islam et al., 2023) are adjusted to account for battery charging efficiency losses. See the battery electric vehicles definition for details on efficiency losses. 
  • Baseline Fuel: The baseline fuel used for this powertrain in the LCOD and emissions estimates is the plug-in electric vehicle charging electricity with the national grid mix pathway. Additional selected fuel pathways can be displayed by choosing Lowest Cost or Lowest Emissions under the Fuel Pathway filter. Additional information about these and other fuels can be found on the Electricity page.
  • Frozen Fuel Price Level: The fuel price and emissions of the selected fuel pathways (e.g., Baseline, Lowest Cost, and Lowest Emissions) are associated with a single year. Because we do not provide a time-series trajectory, here we show fuel price at a frozen level for all years so we can offer a range of fuel price values. In the levelized cost of driving and emissions charts, this approach clearly distinguishes effects of fuels from those of vehicle technologies because fuels remain constant whereas vehicle technologies change over time.
  • Charge-Depleting Fuel Economy Conversion: The charge-depleting fuel economy is converted to miles per gallon gasoline equivalent from watt-hours per mile, assuming 1 gge = 33.700 kilowatt-hours (kWh) (EPA, 2011).
  • Vehicle Range: The vehicle range represents the adjusted real-world, on-road estimated driving range in all-electric (charge-depleting) mode. The range is based on 55% city and 45% highway driving, using the Urban Dynamometer Driving Schedule and Highway Fuel Economy Test drive cycles, respectively. Based on data from the National Household Travel Survey, 93% of individual vehicle trips in the United States are less than 31 miles (Oak Ridge National Laboratory and Federal Highway Administration, 2022). The ATB does not estimate the cost (or opportunity cost) of the time required to charge the vehicle.
  • Charger Equipment and Installation Costs: The Transportation ATB includes charger equipment and installation costs for battery electric vehicles in the price of electricity, detailed on the electricity page.
  • Fuels References: See fuels pages, especially for electricity, for a full description of fuels references. Those for electricity include (EIA, 2023b)(EIA, 2023c)(EIA, 2023a)(Gagnon et al., 2024), and (Wang et al., 2023).

The data downloads include additional details of assumptions and calculations for each metric.

Definitions

For detailed definitions, see:

Battery Electric Vehicles

Emissions

Fuel economy

Levelized cost of driving

Scenarios

Modeled Vehicle Price

Vehicle Range

References

The following references are specific to this page; for all references in this ATB, see References.

Islam, Ehsan Sabri, Daniela Nieto Prada, Ram Vijayagopal, Charbel Mansour, Paul Phillips, Namdoo Kim, Michel Alhajjar, and Aymeric Rousseau. “Detailed Simulation Study to Evaluate Future Transportation Decarbonization Potential.” Report to the US Department of Energy, Contract ANL/TAPS-23/3. Argonne National Laboratory (ANL), Argonne, IL (United States), October 2023. https://anl.app.box.com/s/hv4kufocq3leoijt6v0wht2uddjuiff4.

Wang, Michael, Amgad Elgowainy, Uisung Lee, Kwang Hoon Baek, Sweta Balchandani, Pahola Thathiana Benavides, Andrew Burnham, et al. “Summary of Expansions and Updates in R&D GREET® 2023.” Argonne National Lab. (ANL), Argonne, IL (United States), December 1, 2023. https://doi.org/10.2172/2278803.

EIA. “Annual Energy Outlook 2023.” Washington D.C.: U.S. Energy Information Administration, March 16, 2023a. https://www.eia.gov/outlooks/aeo/.

Oak Ridge National Laboratory, and Federal Highway Administration. “National Household Travel Survey,” 2022. https://nhts.ornl.gov/vehicle-trips.

EIA. “Electricity Data Browser - Average Retail Price of Electricity,” 2023b. https://www.eia.gov/electricity/data/browser/#/topic/7?agg=0,1&geo=g00080000004&endsec=vg&linechart=ELEC.PRICE.US-ALL.A&columnchart=ELEC.PRICE.US-ALL.A&map=ELEC.PRICE.US-ALL.A&freq=A&start=2021&end=2023&ctype=linechart&ltype=pin&rtype=s&pin=&rse=0&maptype=0.

EIA. “Electricity Data Browser - Net Generation for All Sectors,” 2023c. https://www.eia.gov/electricity/data/browser/#/topic/0?agg=0,1&geo=g00080000004&freq=A&start=2021&end=2023&ctype=linechart&ltype=pin&rtype=s&maptype=0&rse=0&pin=.

Gagnon, Pieter, An Pham, Wesley Cole, Sarah Awara, Anne Barlas, Maxwell Brown, Patrick Brown, et al. “2023 Standard Scenarios Report: A U.S. Electricity Sector Outlook.” National Renewable Energy Laboratory (NREL), Golden, CO (United States), January 1, 2024. https://doi.org/10.2172/2274777.

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