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Cargo Handling Equipment at Ports
3/1/2022
Ports, critical to trade and economic vitality, depend on a wide range of vehicles and machinery to move goods. Historically, most port equipment has been powered by diesel, contributing to poor air quality and greenhouse gas emissions. Increasingly, however, port equipment is powered by less-polluting fuels, including electricity, CNG, LNG, and LPG. This fact sheet describes the specific types of cargo handling equipment, their functions, and the fuel types currently available to power them.
Authors: Andrew Burnham
Electric Trucks Have Arrived: The Use Case for Terminal Tractors
3/1/2022
This report documents the three terminal tractors that participated in the Run on Less - Electric demonstration by the North American Council for Freight Efficiency, which was conducted in September of 2021. It provides data from the demonstration, research and interviews with fleets, vehicle manufacturers, and other industry experts about this market segment. The report shares key findings for electrifying terminal tractors.
Notes:
This copyrighted publication can be accessed on the North American Council for Freight Efficiency website.
Charging Forward: A Toolkit for Planning and Funding Rural Electric Mobility Infrastructure
2/1/2022
This toolkit is meant to be a one-stop resource to help rural communities scope, plan, and fund EV charging infrastructure for light-duty electric passenger vehicles. Rural stakeholders, including states, local communities, tribes, transportation providers, nonprofits, businesses, and individuals, can use the toolkit to identify key partners for a project, take advantage of relevant planning tools, and identify available funding or financing to help make that project a reality. Armed with the resources in this toolkit, rural communities will have the tools and information they need to start planning and implementing EV infrastructure projects and ultimately realize the benefits of electric mobility.
Identifying Electric Vehicles to Best Serve University Fleet Needs and Support Sustainability Goals
2/1/2022
University fleets represent an enticing opportunity to explore the near-term feasibility of achieving net-zero-carbon emissions in transportation. In many instances, universities operate much like a small, self-contained ecosystem with all the same transportation needs as a larger municipality, but with a smaller geographic footprint. Their fleets often include a wide variety of vehicle types serving the campus, including low-speed vehicles (e.g., golf carts), light-duty sedans, SUVs, and pickups, as well as medium-duty trucks and delivery vehicles. The mix of vehicle and operational needs combined with broader activities related to net-zero campuses makes universities and colleges unique microcosms to determine the feasibility of and path to achieving net-zero fleets. As the availability of electric drivetrains expands beyond light-duty sedans, fleets need to understand when it will be operationally and financially appropriate to start adding electric drivetrains to their fleets. To better understand these opportunities, NREL contracted Sawatch Labs to analyze the role electric vehicles (EVs) can have in helping universities meet net-zero emissions and fleet sustainability goals they have instituted.
Authors: Booth, S.; Bennett, J.; Helm, M.; Arnold, D.; Baker, B.; Clay, R.; Till, M.; Sears, T.
Electric Vehicle Supply Equipment Standards Technology Review
2/1/2022
Zero-emission transportation is critical to achieving California’s air quality and climate goals. To support the adoption and use of zero-emission vehicles, the California Air Resources Board (CARB) adopted the Electric Vehicle Supply Equipment (EVSE) Standards Regulation in 2019 to reduce barriers to accessing public charging stations. The EVSE Standards Regulation establishes minimum requirements for payment methods an EVSE must allow, facilitates roaming agreements between electric vehicle service providers, creates a more complete database of location and pricing information for consumer use, and ensures clarity in the cost of a charging session. To assess barriers drivers may face and understand whether the requirements of the Regulation, particularly the requirement that EVSE must accept both chip payment cards and contactless, “tap” cards, CARB staff conducted a Technology Review. The Technology Review included an evaluation of the availability and use of different payment methods and a survey of drivers’ experiences accessing public charging stations. This report presents the findings and recommendations from that work.
Impacts of Increasing Electrification on State Fleet Operations and Charging Demand
2/1/2022
State fleets represent an enticing opportunity to explore the near-term feasibility of fleet electrification. In many instances, state fleet operations encompass a wide geographic area with fleet locations for many vehicles. Serving these wide areas will require a significant amount of energy and, in the case of electric vehicles (EVs), a significant level of charging power. The peak demand as a result of this charging demand is of interest for fleets, with impacts on both utility bills and installation costs ranking among some of the greatest concerns. The combination of a wide operational area and multiple fleet locations positions state fleets as ideal candidates to understand the impacts of vehicle charging on fleet operations. As the availability of electric drivetrains expands beyond light-duty sedans, fleets need to understand when it will be appropriate operationally and financially to start adding electric drivetrains to their fleets. Throughout this process, it will also be important to understand the charging implications of fleet electrification and the resulting impacts to facility electrical systems. To better understand these considerations, NREL contracted Sawatch Labs to analyze the role that increasing state fleet electrification may have on the charging demand at fleet parking facilities.
Authors: Booth,S.; Bennett, J.; Helm, M., Arnold, D.; Baker, B.; Clay, R.; Till, M.; Sears, T.
Transportation Energy Data Book: Edition 40
2/1/2022
The Transportation Energy Data Book: Edition 40 is a statistical compendium prepared and published by Oak Ridge National Laboratory (ORNL) under contract with the U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, Vehicle Technologies Office. Designed for use as a desk-top reference, the Data Book represents an assembly and display of statistics and information that characterize transportation activity, and presents data on other factors that influence transportation energy use. The purpose of this document is to present relevant statistical data in the form of tables and graphs. The latest edition of the Data Book is available via the Internet (tedb.ornl.gov).
Authors: Davis, S.C.; Boundy, R.G.
Supporting Electric Vehicle Supply Equipment Deployment
2/1/2022
The U.S. Department of Energy (DOE) Federal Energy Management Program (FEMP) helps federal agencies electrify their fleets and support the deployment of charging infrastructure. To assist agencies with the transition to zero-emission vehicles (ZEVs), including battery electric vehicles (BEVs) and plug-in hybrid electric vehicles (PHEVs), FEMP offers technical guidance on electric vehicle supply equipment (EVSE) installations and site-specific planning through on-site and virtual EVSE Tiger Teams.
Evaluation of Policies for EV Charging Infrastructure Deployment
2/1/2022
To help guide federal, state, and local policymakers in the development of policies and programs focused on electric vehicle (EV) charging station deployment, this study evaluates the effectiveness of various policy approaches in contributing to deployments and broader EV charging market development. Using both statistical analysis and interviews of policymakers and business leaders across key states, this study aims to identify the major existing U.S. policies adopted between 2016 and 2020, to evaluate the effectiveness of these policies, to evaluate the relationship between policies and the development of the broader EV charging market, and to identify opportunities for future policy formulation.
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This copyrighted publication can be accessed on the Fuels Institute website.
A Meta-Study of Purchase Costs for Zero-Emission Trucks
2/1/2022
This study reviews recent literature on current and projected battery-electric and hydrogen fuel cell tractor truck costs. In addition, this study provides information about the costs of key components for zero-emission trucks, including the battery pack, motor, and energy storage systems. Note: This copyrighted publication can be accessed through the International Council on Clean Transportation website.
Authors: Sharpe, B.; Basma, H.
Notes:
This copyrighted publication can be accessed on the International Council on Clean Transportation's website.
Run On Less - Electric Report
1/19/2022
This report documents the Run on Less - Electric demonstration by the North American Council for Freight Efficiency, which was conducted in September of 2021. It shares the methods used to select the participating fleets, routes, and equipment, and metrics that measured the 13 participating pairs of fleets and original equipment manufacturers. The demonstrations showed that for four market segments — vans and step vans, medium-duty box trucks, terminal tractors, and heavy-duty regional haul tractors — commercial battery electric vehicles are a viable option for fleets.
Notes:
This copyrighted publication can be accessed on the North American Council for Freight Efficiency’s website.
The ABCs of Ohio EVs: A Policy Guide to Electrify Ohio
1/18/2022
In this report, the Citizens Utility Board of Ohio examines key issues related to transportation electrification to capture the potential of electric vehicle (EV) growth and use it to optimize the state’s electric system. It includes guidelines for policy development and specific measures to help propel this emerging market transformation and ensure that everybody will benefit from EVs, whether or not they drive one. It identifies factors affecting EV market growth, assesses its ramifications for the electric grid and for consumers, advances principles to protect the interests of electricity customers, and recommends responsive state actions.
Cost of Electric Commercial Vans and Pickup Trucks in the United States Through 2040
1/11/2022
This paper presents a total cost of ownership assessment of battery-electric Class 2b and 3 commercial vehicles between 2020 and 2040 benchmarked against the corresponding costs of gasoline and diesel powertrains. While electrification has been slow to emerge in this area, the relatively low daily driving range compared to other commercial vehicle classes makes this sector prime for a technology shift to zero-emission technology in the coming years.
Authors: Mulholland, E.
Transit Vehicle Innovation Deployment Centers Advisory Panel Overview and Conclusions
1/3/2022
The Transit Vehicle Innovation Deployment Centers (TVIDC) program was funded by the U.S. Department of Transportation Federal Transit Administration to research the advancement, production, and deployment of advanced vehicle technologies and infrastructure within the public transportation sector. The TVIDC program assembled the Transit Vehicle Innovation Deployment Advisory Panel to meet and develop suggested solutions to the challenges of continued innovation, development, and adoption of zero-emission transit technologies. This report is a summary of the panel’s suggested solutions and activities.
EV Charging at Multi-Family Dwellings
1/3/2022
Approximately 30% of U.S. households are multi-family dwellings (MFDs), such as apartments and condos, and almost 75% of MFD households have at least one vehicle. Therefore, it is essential for electric vehicle (EV) charging to be available to MFD residents in order to make EVs an option for a large portion of the population. This paper draws on case studies, other research, and charging use data from the Columbus, Ohio area and New York state to summarize the key drivers and barriers for MFD building managers to install EV charging.
Authors: Lepre, N.
