Electric Vehicle Charging Infrastructure Trends from the Alternative Fueling Station Locator: First Quarter 2024
9/23/2024
Electric vehicle (EV) charging infrastructure in the United States continues to rapidly change and grow. Using data from the U.S. Department of Energy’s Alternative Fueling Station Locator, this report provides a snapshot of the state of EV charging infrastructure in the United States in the first calendar quarter of 2024 by charging level, network, location, housing density, and disadvantaged community designation. Additionally, this report measures the current state of charging infrastructure compared with a federal infrastructure requirement scenario. This information is intended to help transportation planners, policymakers, researchers, infrastructure developers, and others understand the rapidly changing landscape of EV charging infrastructure. This is the 17th report in a series.
Authors: Brown, A.; Cappellucci, J.; Heinrich, A.; Gaus, M.; Cost, E.
Powering Progress: Advancing Transportation Electrification in Rural Southeastern Communities
7/1/2024
This report follows up on a 2022 Electrification Coalition report, Electric Vehicles (EVs) in Rural Communities, in addressing common roadblocks to transportation electrification in the rural, Southeast U.S. by providing case study examples of how communities have overcome these challenges. As rural communities are particularly susceptible to the effects of oil-dominated transportation systems, examples of successful electrification pathways are critical to wide-reaching EV deployment.
Electric Vehicle Charging Infrastructure Trends from the Alternative Fueling Station Locator: Fourth Quarter 2023
7/1/2024
Electric vehicle (EV) charging infrastructure continues to rapidly change and grow. Using data from the U.S. Department of Energy’s Alternative Fueling Station Locator, this report provides a snapshot of the state of EV charging infrastructure in the United States in the fourth calendar quarter of 2023 by charging level, network, and location. Additionally, this report measures the current state of charging infrastructure compared with a federal infrastructure requirement scenario. This information is intended to help transportation planners, policymakers, researchers, infrastructure developers, and others understand the rapidly changing landscape of EV charging infrastructure. This is the sixteenth report in a series.
Authors: Brown, A.; Cappellucci, J.; Heinrich, A.; Cost, E.
Customer-Focused Key Performance Indicators for Electric Vehicle Charging
6/18/2024
Electric vehicles (EVs) are a rapidly growing portion of the light-duty vehicle market, but their sustained success is closely linked to the reliability and ease-of-use of public EV chargers. To mitigate issues such as long wait times, difficulties starting charging sessions, and slow charging speeds, this report recommends two sets of numerically defined key performance indicators (KPIs) based on customer pain points that will help streamline the transition to clean vehicles. These KPIs target the following: charger access, starting and completing a charge, and charger-related safety and comfort.
Authors: Casey Quinn; Sarah Cardinali; Jason Clifford; Kaleb Houck; Kristi Moriarty
Solar Power + Electric Vehicle Charging: Capturing Synergies in Minnesota
6/1/2024
A suite of aggressive climate action legislation, including a series of solar development commitments, has contributed to Minnesota reducing the carbon intensity of its power sector by 29% over 2013 levels. However, the carbon footprint of each sector has not dropped equally. In 2018, the transportation sector overtook power generation as the leading emissions producer statewide. The same focus on solar energy—combined with electric vehicle (EV) use—offers a vital opportunity for Minnesota to decrease transportation emissions. The analysis in this report examines the underdeveloped synthesis between solar production and EV charging, presenting seven key findings paired with relevant recommendations to transform the market and decrease transportation-based emissions.
Authors: Brian Ross; Katelyn Bocklund; Matthew Prorok; Dane McFarlane; Abby Finis
Physical Safety and Security at Electric Vehicle Charging Sites
6/1/2024
As electric vehicle (EV) demand grows, so does the need for more robust EV charger safety and security. EV charger host sites must work to uplift driver and passenger confidence by incorporating design elements that promote greater safety and security. This help sheet outlines various best practices for public EV chargers. While the help sheet indicates the higher monetary costs attributed to greater safety and security measures, it also clarifies the greater repeat customers rates that result from these improvements.
Grid-Constrained Electric Vehicle Fast Charging Sites: Battery-Buffered Options
6/1/2024
America’s electric vehicle (EV) charging network is growing quickly, but many rural regions across the country experience electrical grid restraints that complicate the EV charger build-out. Government agencies must still devise strategies for deploying chargers in these locations where electrical grid capacity is more limited. This technical assistance case study provides guidance on battery-buffered options for EV charging sites with limited grid capacity, including infrastructure solutions, project economics, energy specification methods, technical considerations, and other relevant strategies.
Best Practices for EV Carsharing Programs
6/1/2024
Carsharing programs are common throughout the U.S., but few so far have focused on electric vehicles (EVs). Over the past six years, Forth Mobility has developed and trialed several EV carshare programs to identify and better understand the best practices and roadblocks to implementing these programs in underserved areas, such as in low-income and rural communities. This paper shares lessons learned by analyzing the following subject areas: revenue planning; site host, technology platform, and vehicle type selection; educational outreach; marketing strategies; and community organization partnerships.
Authors: Connor Herman
Navigating Options for Transportation Electrification and Solar Charging: Steps and Lessons Learned in Montana Communities
6/1/2024
Drawing on analysis and outreach in three Montana communities (Missoula, Bozeman, and Whitefish), this report provides guidance and best practices for other towns and cities across the country on how to effectively implement electric vehicle (EV) transportation options into their communities. The report incorporates logistical considerations—vehicle types, chargers, electricity generation—and useful strategies—effective stakeholder engagement, coordinating EV charging and renewable energy generation, and more—to cover the technological, economic, and environmental aspects of the transition to EVs.
Authors: Andrew Valainis; Kyla Maki; Chase Jones; Natalie Meyer; Amy Cilimburg
Embedding Equity into Community EV Readiness Planning
6/1/2024
New electric vehicle (EV) infrastructure presents an opportunity to imbed greater equity into surrounding communities. Doing so ensures that all community members are heard during the nationwide clean transition, and also streamlines the process of securing funding from federal offices that prioritize equity-based initiatives such as Justice40. This help sheet examines pathways to more effectively embed equity considerations into EV charger development, including strategies for community outreach, zoning, needs assessments, receiving funding, and more.
Battery-Powered Bargains? Assessing Electric Vehicle Resale Value in the United States
4/17/2024
This study analyzes the depreciation trends of all-electric vehicles (EVs) and plug-in hybrid electric vehicles (PHEVs) compared to conventional gasoline vehicles, based off a database of nine million pre-owned vehicles listed online between 2016 and 2022. The study found that while EVs and PHEVs have depreciated at a faster rate than gasoline vehicles, the trend is changing as newer models of EVs have had higher retention rates than older model years.
Authors: Roberson, L; Pantha, S; Helveston, J
Study of Electric Vehicle Range Loss Associated with Replacement Tires
4/1/2024
This technical report from Oak Ridge National Laboratory (ORNL) examines how replacement tires affect the range of EVs, with a goal of supplementing the EV information made available to consumers on the FuelEconomy.Gov website. The report analyzes the change in range from worn tires versus replacement tires, paying particular attention to how tire friction impacts range losses. The report also compares worn, replacement, and original equipment manufacturer (OEM) tires across five EV models from different EV manufacturers. ORNL concludes that, compared to OEM tires, tire replacements reduce estimated EV range whereas worn tires increase estimated range.
Authors: C. Scott Sluder; Stacy C. Davis; Robert G. Boundy
High-Power Electric Vehicle Charging Hub Integration Platform (eCHIP): Design Guidelines and Specifications for DC Distribution-Based Charging Hub
4/1/2024
The U.S. Department of Energy (DOE)-funded EVs@Scale Consortium aims to expand direct current (DC), distribution-based, high-power charging systems through eCHIP. Further, the eCHIP program seeks to develop affordable, efficient, and interoperable DC-coupled charging hubs (“DC hub”). This report provides a step-by-step analysis of the DC hub platform, including design, development, and implementation. The report also offers metrics and considerations for DC hub system design, using results from a preliminary eCHIP experiment as benchmarking.
Authors: Mithat John Kisacikoglu; Jason D. Harper; Rajendra Prasad Kandula; Alastair P. Thurlbeck; Akram Syed Ali
Multi-State Transportation Electrification Impact Study
3/1/2024
This study was conducted to help answer technical and deployment questions about whether the electric grid can accommodate increasing demands from transportation electrification, particularly if it can accommodate the anticipated impact of the U.S. Environmental Protection Agency rulemakings if finalized as proposed on greenhouse gas emission standards for light-, medium-, and heavy-duty on-road vehicles The study analyzes charging infrastructure and distribution grid upgrade needs for California, Illinois, New York, Oklahoma, and Pennsylvania, which are indicative of a variety of transportation demand and utility distribution infrastructure in the United States.