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Primer on Motor Fuel Excise Taxes and the Role of Alternative Fuels and Energy Efficient Vehicles
8/24/2015
Motor fuel taxes were established to finance our nation's transportation infrastructure, yet evolving economic, political, and technological influences are constraining this ability. At the federal level, the Highway Trust Fund (HTF), which is primarily funded by motor fuel taxes, has become increasingly dependent on general fund contributions and short-term reauthorizations to prevent insolvency. As a result, there are discussions at both the federal and state levels in which stakeholders are examining the future of motor fuel excise taxes as well as the role of electric and alternative fuel vehicles in that future.
This report intends to provide an overview of motor fuel taxation, review its specific relationship to alternative fuel use and vehicle efficiency, and outline approaches that a number of states have taken to address these issues. The specific focus is on motor fuels used in over-the-road transportation, which accounted for approximately 82% of all energy used for transportation in the United States in 2014 (EIA 2015a). The report primarily provides context around federal fuel tax rules and rates, but analogies can be drawn to individual state programs.
Authors: Schroeder, A
Long-Haul Truck Idling Burns Up Profits
8/12/2015
Long-haul truck drivers perform a vitally important service. In the course of their work, they must take rest periods as required by federal law. Most drivers remain in their trucks, which they keep running to provide power for heating, cooling, and other necessities. Such idling, however, comes at a cost; it is an expensive and polluting way to keep drivers safe and comfortable. Increasingly affordable alternatives to idling not only save money and reduce pollution, but also help drivers get a better night's rest.
Challenges and Opportunities for Transactive Control of Electric Vehicle Supply Equipment: A Reference Guide
7/29/2015
This report seeks to characterize the opportunities and challenges that arise in developing a transactive control strategy for grid and electric vehicle supply equipment (EVSE) integration in various use-case scenarios in a way that provides end-user, energy market, grid, and societal benefits. This report serves as a reference guide for stakeholders in the grid-EVSE integration area, illustrates potential implementations, and identifies a high-value research project for overcoming the barriers and unlocking the benefits of transactive controls of EVSE.
Authors: Jin, X.; Meintz, A.
Idling Reduction for Personal Vehicles
5/7/2015
Fact sheet on reducing engine idling in personal vehicles. Idling your vehicle--running your engine when you're not driving it--truly gets you nowhere. Idling reduces your vehicle's fuel economy, costs you money, and creates pollution. Idling for more than 10 seconds uses more fuel and produces more emissions that contribute to smog and climate change than stopping and restarting your engine does.
Idling Reduction for Emergency and Other Service Vehicles
5/7/2015
This is a fact sheet about reducing idling for emergency and service vehicles. Emergency vehicles, such as police cars, ambulances, and fire trucks, along with other service vehicles such as armored cars, are often exempt from laws that limit engine idling. However, these vehicles can save fuel and reduce emissions with technologies that allow them to perform vital services without idling.
Stop and Restart Effects on Modern Vehicle Starting System Components
4/28/2015
Many drivers of personal and commercial vehicles believe that turning the vehicle off and on frequently instead of idling will cause premature wear of the starter system (starter motor and starter battery). As a result, they are concerned that the replacement cost of the starter motor and/or battery due to increased manual engine cycling would be more than the cumulative cost of the fuel saved by not idling unnecessarily. A number of variables play a role in addressing this complex concern, including the number of starting cycles per day, the time between starting cycles, the intended design life of the starting system, the amount of fuel used to restart an engine, and the cumulative cost of the saved fuel. Qualitative and quantitative information from a variety of sources was used to develop a life-cycle economic model to evaluate the cost and quantify the realistic factors that are related to the permissible frequency of starter motor cycles for the average vehicle to economically minimize engine idle time. Annual cost savings can be calculated depending on shutdown duration and the number of shutdown cycles per day. Analysis shows that cost savings are realized by eliminating idling exceeding one minute by shutting down the engine and restarting it. For a typical motorist, the damage to starting system components resulting from additional daily start cycles will be negligible. Overall, it was found that starter life is mostly dependent on the total number of start cycles, while battery life is more dependent on ensuring a full charge between start events.
Authors: Windover, P.R.; Owens, R.J.; Levinson, T.M.; Laughlin, M.D.
Effects of Regional Temperature on Electric Vehicle Efficiency, Range, and Emissions in the United States
2/11/2015
We characterize the effect of regional temperature differences on battery electric vehicle (BEV) efficiency, range, and use-phase power plant CO2 emissions in the U.S. The efficiency of a BEV varies with ambient temperature due to battery efficiency and cabin climate control. We find that annual energy consumption of BEVs can increase by an average of 15% in the Upper Midwest or in the Southwest compared to the Pacific Coast due to temperature differences. Greenhouse gas (GHG) emissions from BEVs vary primarily with marginal regional grid mix, which has three times the GHG intensity in the Upper Midwest as on the Pacific Coast. However, even within a grid region, BEV emissions vary by up to 22% due to spatial and temporal ambient temperature variation and its implications for vehicle efficiency and charging duration and timing. Cold climate regions also encounter days with substantial reduction in EV range: the average range of a Nissan Leaf on the coldest day of the year drops from 70 miles on the Pacific Coast to less than 45 miles in the Upper Midwest. These regional differences are large enough to affect adoption patterns and energy and environmental implications of BEVs relative to alternatives.
Authors: Yuksel, T.; Michalek, J. J.
Notes: This Environmental Science & Technology article is copyrighted by the American Chemical Society and only available by accessing it through ACS Publications.
Plug-In Electric Vehicle Handbook for Consumers
2/9/2015
This handbook is designed to answer a consumer's basic questions, as well as point them to additional information they need, to make the best decision about whether an electric-drive vehicle is right for them.
Using Recent Land Use Changes to Validate Land Use Change Models
11/14/2014
Economics models used by California, the Environmental Protection Agency, and the EU Commission all predict significant emissions from conversion of land from forest and pasture to cropland in response to increased biofuel production. The models attrib-ute all supply response not captured by increased crop yields to land use conversion on the extensive margin. The dramatic increase in agricultural commodity prices since the mid-2000s seems ideally suited to test the reliability of these models by comparing actual land use changes that have occurred since the price increase to model predictions. Country-level data from FAOSTAT were used to measure land use changes. To smooth annual variations, changes in land use were measured as the change in average use across 2004 to 2006 compared to average use across 2010 to 2012. Separate measure-ments were made of changes in land use at the extensive margin, which involves bring-ing new land into agriculture, and changes in land use at the intensive margin, which includes increased double cropping, a reduction in unharvested land, a reduction in fallow land, and a reduction in temporary or mowed pasture. Changes in yield per harvested hectare were not considered in this study.
Authors: Babcock, B.A; Iqbal, Z.
PEV Outreach Resources for Your Employees
11/3/2014
After you've installed plug-in electric vehicle (PEV) charging stations at your work site, you'll want to educate your employees on why and how they can take advantage of this employee benefit. This collection of resources by the U.S. Department of Energy (DOE) Workplace Charging Challenge provides tools, tips, and networks to support employer efforts to engage PEV- and non-PEV driving employees alike.
Authors: Workplace Charging Challenge
Progress Report: Standardization Roadmap for Electric Vehicles - Version 2.0
11/3/2014
In January 2014, the American National Standards Institute Electric Vehicles Standards Panel (ANSI EVSP) resumed work to assess existing and needed standards and conformity assessment solutions to enable electric vehicles and charging infrastructure to be deployed throughout the United States. This report assesses progress to address the standardization gaps identified in the Standardization Roadmap for Electric Vehicles - Version 2.0 (May 2013). It also includes updates on significant standardization activity related to the issues identified in the roadmap.
Clean Cities 2013 Annual Metrics Report
10/20/2014
Each year, the U.S. Department of Energy asks its Clean Cities program coordinators to submit annual reports of their activities and accomplishments for the previous calendar year. Data and information are submitted via an online database that is maintained as part of the Alternative Fuels Data Center (AFDC) at the National Renewable Energy Laboratory (NREL). Coordinators submit a range of data that characterize the membership, funding, projects, and activities of their coalitions. They also submit data about sales of alternative fuels, deployment of alternative fuel vehicles (AFVs) and hybrid electric vehicles (HEVs), idle-reduction (IR) initiatives, fuel economy activities, and programs to reduce vehicle miles traveled (VMT). NREL analyzes the data and translates them into petroleum-use reduction impacts, which are summarized in this 2013 Annual Metrics Report.
Authors: Johnson, C.; Singer, M.
National Clean Fleets Partnership
9/16/2014
Clean Cities' National Clean Fleets Partnership establishes strategic alliances with large fleets to help them explore and adopt alternative fuels and fuel economy measures to cut petroleum use. The initiative leverages the strength of nearly 100 Clean Cities coalitions, nearly 18,000 stakeholders, and more than 20 years of experience. It provides fleets with top-level support, technical assistance, robust tools and resources, and public acknowledgement to help meet and celebrate fleets' petroleum-use reductions.
BC Transit Fuel Cell Bus Project Evaluation Results: Second Report
9/1/2014
This is the second report evaluating a fuel cell electric bus (FCEB) demonstration led by British Columbia Transit (BC Transit) in Whistler, Canada. The FCEB fleet was introduced during the 2010 Winter Olympic Games and operated through March 2014. BC Transit collaborated with the California Air Resources Board and the U.S. Department of Energy's National Renewable Energy Laboratory to evaluate the buses in revenue service. NREL published its first report on the demonstration in February 2014. This report is an update to the previous report; it covers 3 full years of revenue service data on the buses from April 2011 through March 2014 and focuses on the final experiences and lessons learned.
Authors: Eudy, L.; Post, M.
