Publications

Best Practices for Electric Vehicle Supply Equipment Installations in the National Parks - Challenges, Lessons Learned, Installation Best Practices, and Recommendations for the National Park Service

12/27/2019

This report captures challenges, lessons learned, and best practices from recent National Park Service (NPS) electric vehicle supply equipment projects based on interviews with NPS employees and stakeholders involved in the projects. The report summarizes notable takeaways and makes recommendations to help ensure the success of future charging installation projects. Preserving this information will be valuable for informing and ensuring the success of future charging installation efforts at national parks, as well as for organizations outside of NPS. Note that this report focuses on light-duty plug-in electric vehicle projects, though NPS is also pursuing medium- and heavy-duty electric vehicle efforts.

Authors: Kelly, K.; Noblet., S.; Brown, A.

Clean Cities Coalitions 2018 Activity Report

12/27/2019

Clean Cities coalition activities resulted in an energy use impact (EUI) of over 1 billion gasoline-gallons equivalent (GGE), comprised of net alternative fuels used and energy savings from efficiency projects, in 2018. Participation in vehicle and infrastructure development projects remained strong, as did alternative fuel use and resulting overall EUI. Clean Cities coalition activities reduce emissions as they impact energy use. Coalition-reported activities prevented 5 million carbon dioxide-equivalent tons of emissions (only greenhouse gas [GHG] emissions are reported here; criteria pollutants and other emissions are not included in this report). Coalitions were successful in securing project grant awards from numerous (non-DOE) outside sources. For other Federal, State, and local agencies and private sector foundations, see funding section on page 25. The 84 project grant awards in 2018 generated $251 million in funds from coalition members and project partners along with $1.9 million in DOE grant funds. Coalitions also collected $1.1 million in stakeholder dues and $2.9 million in operational funds from host organizations. In macro terms, this supplemental funding represents nearly a 7:1 leveraging of the $37.8 million that was included in the VTO Technology Integration budget in Fiscal Year 2018. Clean Cities coordinators spent nearly 121,000 hours pursuing their coalitions' goals in 2018. The average coordinator is quite experienced and has held his or her position for at least eight years. Coordinators logged more than 3,805 outreach, education, and training activities in 2018, which reached an estimated 35 million people.

Authors: Singer, M.; Johnson, C.

Alternative Fuels Data Center

12/4/2019

The Alternative Fuels Data Center (AFDC) provides a wealth of information and data on alternative and renewable fuels, advanced vehicles, fuel-saving strategies, and emerging transportation technologies. The site features a number of interactive tools, calculators, and mapping applications to aid in the implementation of these fuels, vehicles, and strategies. The AFDC functions as a dynamic online hub, enabling thousands of stakeholders in the transportation system to interact with one another.

Current State of Nitrogen Oxide Emissions from In-Use Heavy-Duty Diesel Vehicles in the United States

11/25/2019

This report assesses the real-world nitrogen oxide (NOx) emissions behavior of heavy-duty diesel vehicles in the United States, measured using portable emissions measurement systems (PEMS). This assessment is based on 160 PEMS tests from engines certified to 0.2 grams per brake horsepower-hour (g/bhp-hr) of NOx. The tests include data from eight manufacturers and 26 unique engine families certified between 2010 and 2016. Second-by-second data was analyzed to compare against the compliance evaluation results and to assess the impact of vehicle speed, vehicle type, and manufacturer on real-world NOx emissions.

Authors: Badshah, H.; Posada, F.; Muncrief, R.

Notes:

This copyrighted publication can be accessed on The International Council on Clean Transportation's website.

Electric Vehicle Capitals: Showing the Path to a Mainstream Market

11/20/2019

This briefing assesses metropolitan area-level data on plug-in electric vehicle (PEV) registrations and identifies the 25 largest PEV markets, which together represent 42% of new passenger PEV sales globally through 2018. To provide a blueprint for other governments, this briefing analyzes the incentives, charging infrastructure, and city promotion actions in these areas that are spurring PEVs into the mainstream.

Authors: Hall, D.; Cui, H.; Lutsey, N.

Notes:

This copyrighted publication can be accessed on The International Council on Clean Transportation's website.

Transportation Electrification Study

11/1/2019

Many cities around the country have undertaken actions and policies to support transportation electrification to improve air quality, reduce greenhouse gas emissions, support residents that choose to drive electric vehicles (EVs), enhance equitable access to clean mobility, and promote economic development. This study recommends efforts the City of Raleigh can undertake to advance transportation electrification both in its own operations and in the community more broadly. The report describes recommended strategies and actions the City of Raleigh can undertake to advance transportation electrification in the areas of City of Raleigh municipal fleet, charging infrastructure, equity and access, equitable economic development and public engagement, and implementation roles and responsibilities.

Electric Vehicle Supply Equipment Tiger Team Site Assessment Findings from Army Facilities

10/31/2019

This report examines how the U.S. Army can cost-effectively install electric vehicle supply equipment (EVSE) to prepare for anticipated electric vehicle acquisitions, and summarizes results from 30 EVSE site visits completed at U.S. Army garrisons from 2016 to 2019. Sponsored by the U.S. Department of Energy and U.S. Army, the National Renewable Energy Laboratory deployed Tiger Teams consisting of engineers and fleet experts to review garrison charging needs and develop recommendations for installing EVSE as well as compressed natural gas stations in certain locations.

Authors: Bennett, J.; Hodge, C.; Kurnik, C.; Kiatreungwattana, K.; Lynch, L.; Salasovich, J.

Mobility Data and Models Informing Smart Cities

10/14/2019

Using emerging data platforms, new mobility technologies, and travel demand models (TDMs), researchers, industry, and communities seek to improve the quality of transportation while maximizing the energy efficiency, equity, and safety of transportation services. As transportation may soon reach over 30% of U.S. energy consumption and with urban areas representing an increasing proportion of the U.S. population (>80% since 2010), a critical need exists to engage in urban data science-informed approaches to enhancing mobility. The objective of this study is to explore and document how aspiring Smart Cities are using data and models to inform mobility and energy initiatives within Smart City programs and in so doing identify gaps in knowledge and processes guiding Smart City mobility investment strategies, programs, projects, and pilots. A primary focus of the Smart Cities studied was the creation of an integrated data sharing environment approach. Most of these systems are being developed in parallel with multiple new data analysis tools, while regional metropolitan planning organizations continue to slowly evolve TDMs to take into account impacts of long-term strategies for emerging mobility technologies and services. Smart City initiatives in the United States have keen interests in leveraging knowledge and research on the mobility benefits and risks of automated, connected, efficient/electric, and shared on-demand mobility services; and understanding the related energy, environmental, economic, and societal impacts of these shifts. The results serve to identify key gaps in data, knowledge, and methods required to advance energy efficient urban mobility innovation, and to enable research and analysis collaboration between Smart Cities and the U.S. Department of Energy's efforts enabling new Systems and Modeling for Accelerated Research in Transportation (SMART) Mobility.

Authors: Sperling, J.; Young, S.; Garikapati, V.; Duvall, A.; Beck, J.M.

Electric Vehicles: Key Trends, Issues, and Considerations for State Regulators

10/1/2019

Over the past few years, states across the country have seen increased consumer adoption of electric vehicles (EVs), thereby increasing electricity demand from the transportation sector. Electric utilities are at different stages of exploring their role in both building EV charging infrastructure and managing grid impacts, including through rate design and managed charging. As a result, many Public Utility Commissions (PUCs), the state agencies tasked with regulating utilities, are being asked to make decisions in this unfamiliar industry, sometimes without direct legislative guidance. This issue brief provides data about the trends in EV adoption, a synopsis of the types of decisions PUCs are facing, and examples of recent state regulatory approaches to EV questions.

Authors: Harper C.; McAndrews, G.; Sass Byrnett, D.

Co-Optimization of Fuels & Engines. Toxicology and Biodegradability of Tier Three Gasoline Blendstocks: Literature Review of Available Data

9/24/2019

This study provides framework for decision makers to more fully evaluate the toxicology and biodegradability of the tier three gasoline blendstocks developed under Co-Optima. These Co-Optima blendstocks were compared to gasoline surrogate compounds, providing guidance for future consideration as the project progresses. Due to the complexity of the subject area, all compounds were considered only in their pure form, not as complex mixtures with gasoline, which was outside the scope of this study. The metrics applied to the blendstocks were environmental transport and fate, environmental and human health toxicity, and environmental regulatory framework. The blendstocks (cyclopentanone; diisobutylene; 2-methylfuran; 2,5-dimethylfuran; isobutanol; ethanol; and isopropanol) presented limited human toxicity based on the information available. All the blendstocks migrated primarily into air or water, with little mobility between these compartments. Coupled with aerobic and/or anaerobic biodegradability, long term environmental persistence is unlikely, with the only exception being diisobutylene, which was not biodegradable. Additional work should focus on the environmental impact of these blendstocks in complex mixtures, such as gasoline, which will represent more real world scenarios.

Authors: Alleman, T.L.; Smith, D.

Assessing the Business Case for Hosting Electric Vehicle Charging Stations in New York State

9/12/2019

As the plug-in electric vehicle (PEV) market grows, so does the demand for public charging stations. Public charging infrastructure expansion is limited by high upfront costs of equipment and installation, uncertain usage of charging services, and consumers’ willingness to pay for public charging. To date, public funding has been an important component of cost recovery and value maximization for station hosts. This white paper evaluates the business case of hosting a Level 2 charging station in New York State. In addition, the report explores scenarios that vary charging-use and revenue sources to better understand the key factors that drive profitability from hosting these stations. The goal of the report is to harness real-world experience to establish an understanding of current charging behavior and inform future efforts to expand the PEV market in New York.

Curb Enthusiasm: Report for On-Street Electric Vehicle Charging

8/15/2019

A critical barrier to the successful large-scale adoption of plug-in electric vehicles (PEVs) in metropolitan areas is the availability of public access charging infrastructure. Charging PEVs in areas with limited off-street parking, where charging equipment is typically installed, becomes a perceptual and logistical barrier for prospective PEV drivers who primarily park on-street. The targeted deployment of curbside Level 2 charging stations is one of the most cost-effective and catalytic ways that local government can support a shift toward PEVs in cities. Through original research, analysis, and case studies, this report seeks to define the potential for curbside Level 2 charging station implementation in New York City and to establish guidelines to ensure success. The report and its accompanying guidebook are intended to be a resource for New York City agencies as well as local governments looking to pilot curbside charging.

Federal Vehicle Fleets: Agencies Have Continued to Incorporate AFVs into Fleets, but Challenges Remain

7/25/2019

Since 1988, a series of laws have been enacted and executive orders issued related to federal goals of reducing federal fleets’ petroleum use and greenhouse gas (GHG) emissions. For fiscal year 2017, federal agencies were required to: acquire certain types of vehicles, use more alternative fuel, and meet targets for reducing petroleum and per-mile GHG emissions. Federal agencies were also under a directive to increase acquisitions of zero emission (electric) vehicles. This report reviews federal agencies’ efforts related to these fiscal year 2017 requirements. It addresses how agencies reported meeting fleet energy requirements and how agencies efforts changed their fleets as well as challenges agencies face related to further meeting fleet energy goals.

Measuring Fundamental Improvements in Sustainable Urban Mobility: The Mobility-Energy Productivity Metric

7/9/2019

Recent technological advancements in mobility are creating many options for connecting citizens with employment, goods, and services, particularly in urban areas where modes such as bike and car shares, electric scooters, ridesourcing, and ridesharing are proliferating at a rapid pace. Analysis and tools for overall transportation planning are dominated by urban regional travel demand models whose roots in highway operations poorly reflect the system dynamics in denser areas where parking costs, convenience, and availability - not to mention sustainability concerns and quality of life - are driving people to an ever-greater spectrum of mobility services. In this paper, we present a new paradigm for evaluating mobility options within an urban area. First developed for the U.S. Department of Energy's Energy Efficient Mobility System research program, this metric is termed the Mobility-Energy Productivity (MEP) metric. At its heart, the MEP metric measures accessibility and appropriately weights it with travel time, cost, and energy of modes that provide access to opportunities in any given location. The proposed metric is versatile in that it can be computed from readily available data sources or derived from outputs of regional travel demand models. End times associated with parking, curb access, cost, and reliability and frequency of service need to be carefully considered to obtain an appropriate and accurate perspective when computing the metric based on outputs from regional travel demand models. Ultimately, the MEP metric can be used to reflect the impacts of new mobility technologies (transportation network companies, electric scooters), business models (car shares and bike shares), and land-use practices (such as transit-oriented development) on sustainable urban mobility. This paper lays out the need, requirements, and framework for this new metric, and offers it, in collaboration with the American Society for Civil Engineers (ASCE), as a foundational metric for Smart City assessment.

Authors: Garikapati, V.; Young, S.; Hou, Y.

Renewable Fuel Standard: Information on Likely Program Effects on Gasoline Prices and Greenhouse Gas Emissions

6/3/2019

This report examines what is known about the effect the Renewable Fuel Standard (RFS) has had to date on retail gasoline prices in the United States, the RFS’s effect on greenhouse gas emissions, and whether the RFS will meet its goals for reducing those emissions. The report also details how renewable identification numbers (RINs) are used to show compliance with the RFS, historical RIN prices, how RINs affect retail fuel prices, and steps the U.S. Environmental Protection Agency has taken to improve the RIN market.