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Find publications about alternative transportation, including alternative fuels, advanced vehicles, and regulated fleets.

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Clean Cities Coalitions 2022 Activity Report Singer, M.; Johnson, C.; Wilson, A. 1/29/2024 Reports

National Renewable Energy Laboratory, Golden, Colorado

The U.S. Department of Energy’s (DOE’s) Vehicle Technologies Office (VTO) works with local Clean Cities coalitions across the country as part of its Technology Integration Program. These efforts help businesses and consumers make smarter and more informed transportation energy choices that can save energy, lower costs, provide resilience through fuel diversification, and reduce emissions. This report summarizes the success and impact of coalition activities based on data and information provided in their annual reports.

Clean Cities Coalitions 2021 Activity Report Singer, M.; Johnson, C.; Wilson, A. 1/24/2023 Reports

National Renewable Energy Laboratory, Golden, Colorado

The U.S. Department of Energy’s (DOE’s) Office of Energy Efficiency and Renewable Energy’s Vehicle Technologies Office (VTO) works with local Clean Cities coalitions across the country as part of its Technology Integration Program. These efforts help businesses and consumers make smarter and more informed transportation energy choices that can save energy, lower costs, provide resilience through fuel diversification, and reduce air emissions. This report summarizes the success and impact of coalition activities based on data and information provided in their annual progress reports.

Clean Cities 2015 Annual Metrics Report Johnson, C.; Singer, M. 12/28/2016 Reports

National Renewable Energy Laboratory, Golden, Colorado

The U.S. Department of Energy's (DOE's) Clean Cities program advances the nation's economic, environmental, and energy security by supporting local actions to cut petroleum use and greenhouse gas (GHG) emissions in transportation. A national network of nearly 100 Clean Cities coalitions, whose territory covers 80% of the U.S. population, brings together stakeholders in the public and private sectors to deploy alternative and renewable fuels, idle-reduction (IR) measures, fuel economy improvements, and new transportation technologies as they emerge. Each year, DOE asks Clean Cities coordinators to submit annual reports of their activities and accomplishments for the previous calendar year. Progress reports and information are submitted online as a function of the Alternative Fuels Data Center (AFDC) at the National Renewable Energy Laboratory (NREL). Coordinators report a range of information that characterizes the membership, funding, projects, and activities of their coalitions. They also document activities in their region related to the development of refueling/charging infrastructure, sales of alternative fuels; deployment of alternative fuel vehicles (AFVs), plug-in electric vehicles (PEVs), hybrid electric vehicles (HEVs), and plug-in hybrid electric vehicles (PHEVs); idle reduction initiatives; fuel economy improvement activities; and programs to reduce vehicle miles traveled (VMT). NREL analyzes the data and translates them into petroleum-use and GHG emission reduction impacts, which are summarized in this report.

Clean Cities 2014 Annual Metrics Report Johnson, C.; Singer, M. 12/22/2015 Reports

National Renewable Energy Laboratory, Golden, Colorado

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 2014 Annual Metrics Report.

Clean Cities 2013 Annual Metrics Report Johnson, C.; Singer, M. 10/20/2014 Reports

National Renewable Energy Laboratory, Golden, Colorado

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.

Clean Cities Coalitions 2019 Activity Report Singer, M.; Johnson, C. 5/6/2021 Reports

National Renewable Energy Laboratory, Golden, Colorado

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 2019. 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 nearly 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 24. The 82 project grant awards in 2019 generated $225 million in funds from coalition members and project partners along with $9.5 million in DOE grant funds. Coalitions also collected $1.2 million in stakeholder dues and $1.6 million in operational funds from host organizations. In macro terms, this supplemental funding represents nearly a 6:1 leveraging of the $38 million that was included in the VTO Technology Integration budget in Fiscal Year 2019. Clean Cities coordinators spent nearly 136,000 hours pursuing their coalitions' goals in 2019. The average coordinator is quite experienced and has held his or her position for at least eight years. Coordinators logged more than 3,525 outreach, education, and training activities in 2019, which reached an estimated 23 million people.

Clean Cities Coalitions 2020 Activity Report Singer, M.; Johnson, C. 12/29/2021 Reports

National Renewable Energy Laboratory, Golden, Colorado

Clean Cities coalition activities resulted in an EUI of nearly 1 billion GGE, comprised of net alternative fuels used and energy savings from efficiency projects, in 2020. Clean Cities coalition and stakeholder participation in vehicle and infrastructure development projects remained strong, although transportation activity and resulting EUI decreased in 2020 due to the COVID 19 pandemic. Coalition-reported activities prevented nearly 5 million carbon dioxide-equivalent tons of emissions (only GHG emissions are reported here; criteria pollutants and other emissions are not included in this report). The GHG benefits increased in 2020 despite a decrease in EUI because coalitions focused more on technologies with higher GHG benefits per GGE reduced and because the lifecycle of many alternative fuels such as electricity or biofuels is becoming less carbon intense. Coalitions were successful in securing project grant awards from numerous outside (non-DOE) sources. The 90 project grant awards in 2020 generated $151 million in funds from coalition members and project partners in addition to $12.8 million in DOE grant funds. Coalitions also collected $1.1 million in stakeholder dues and $3.1 million in operational funds from host organizations. In macro terms, this non-DOE supplemental funding represents a 4:1 leveraging of the $38 million that was included in the VTO Technology Integration budget in 2020. Clean Cities coordinators spent nearly 135,700 hours pursuing their coalitions’ goals in 2020. The average coordinator is quite experienced and has held the coordinator position for nearly eight years. Coordinators logged more than 3,290 outreach, education, and training activities in 2020, which reached an estimated 31 million people. Activities that reached underserved communities were tracked for the first time in 2020 and accounted for 17% of all activities.

Clean Cities Coalitions 2017 Activity Report Johnson, C.; Singer, M. 5/14/2019 Reports

National Renewable Energy Laboratory, Golden, Colorado

The U.S. Department of Energy's (DOE's) national network of Clean Cities Coalitions advance the nation's economic, environmental, and energy security by supporting local actions to promote the use of domestic fuels within transportation. The nearly 100 Clean Cities coalitions, whose territory covers 80% of the U.S. population, bring together stakeholders in the public and private sectors to use alternative and renewable fuels, idle-reduction (IR) measures, fuel economy improvements, and new transportation technologies as they emerge. To ensure success, coalitions leverage a robust set of expert resources and tools provided by national laboratories and DOE. Each year, Clean Cities coordinators submit annual reports of their activities and accomplishments for the previous calendar year. Data and information are submitted via an online tool 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; use of alternative fuel vehicles (AFVs), plug-in electric vehicles (PEVs), and hybrid electric vehicles (HEVs); IR initiatives; fuel economy improvement activities; and programs to reduce vehicle miles traveled (VMT). NREL analyzes the submitted data to determine how broadly energy use in the U.S. has shifted due to coalition activities, which are summarized in this report.

Customer Experience at Public Charging Stations and Its Effects on the Purchase and Use of Electric Vehicles 9/1/2023 Reports

Charge X Consortium, Washington, District of Columbia

This report evaluates how consumer experiences at public fast charging stations influence electric vehicle (EV) adoption, including how it impacts the likelihood of current EV drivers purchasing EVs in the future. This report discusses how a better understanding about how the customer experience impacts the adoption of EVs could help create performance metrics for public EV charging stations and ensure that EV adoption meets federal and state goals in coming years.

Clean Cities 2012 Annual Metrics Report Johnson, C. 12/5/2013 Reports

National Renewable Energy Laboratory, Golden, Colorado

The U.S. Department of Energy's (DOE) Clean Cities program advances the nation's economic, environmental, and energy security by supporting local actions to cut petroleum use in transportation. A national network of nearly 100 Clean Cities coalitions brings together stakeholders in the public and private sectors to deploy alternative and renewable fuels, idle-reduction measures, fuel economy improvements, and new transportation technologies, as they emerge.</p><p>Each year DOE asks Clean Cities 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 characterizes 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 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 report.

Clean Cities Coalitions 2016 Activity Report Johnson, C.; Singer, M. 10/10/2018 Reports

National Renewable Energy Laboratory, Golden, Colorado

The U.S. Department of Energy's (DOE's) national network of Clean Cities Coalitions advance the nation's economic, environmental, and energy security by supporting local actions to promote the use of domestic fuels within transportation. The nearly 100 Clean Cities coalitions, whose territory covers 80% of the U.S. population, bring together stakeholders in the public and private sectors to use alternative and renewable fuels, idle-reduction (IR) measures, fuel economy improvements, and new transportation technologies as they emerge. To ensure success, coalitions leverage a robust set of expert resources and tools provided by national laboratories and DOE. Each year, Clean Cities coordinators submit annual reports of their activities and accomplishments for the previous calendar year. Data and information are submitted via an online tool 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; use of alternative fuel vehicles (AFVs), plug-in electric vehicles (PEVs), and hybrid electric vehicles (HEVs); IR initiatives; fuel economy improvement activities; and programs to reduce vehicle miles traveled (VMT). NREL analyzes the submitted data to determine how broadly energy use in the U.S. has shifted due to coalition activities, which are summarized in this report.

Clean Cities 2011 Annual Metrics Report Johnson, C. 12/1/2012 Reports

National Renewable Energy Laboratory, Golden, Colorado

This annual report details the petroleum savings and vehicle emissions reductions achieved by the U.S. Department of Energy's Clean Cities program in 2011. The report also details other performance metrics, including the number of stakeholders in Clean Cities coalitions, outreach activities by coalitions and national laboratories, and alternative fuel vehicles deployed.

Clean Cities 2010 Annual Metrics Report Johnson, C. 10/1/2012 Reports

National Renewable Energy Laboratory, Golden, Colorado

Each year, the U.S. Department of Energy (DOE) asks Clean Cities coordinators to submit an annual report of their activities and accomplishments for the previous calendar year. Data and information are submitted to an online database that is maintained as part of the Alternative Fuels and Advanced Vehicles Data Center (AFDC) at the National Renewable Energy Laboratory (NREL). Coordinators submit a range of data that characterizes 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 initiatives, fuel economy activities, and programs to reduce vehicle miles traveled (VMT). NREL analyzes the data and translates them into gasoline use reduction impacts, which are summarized in this report.

Clean Cities Coalitions 2018 Activity Report Singer, M.; Johnson, C. 12/27/2019 Reports

National Renewable Energy Laboratory, Golden, Colorado

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.

Energy Justice: Key Concepts and Metrics Relevant to EERE Transportation Projects Romero-Lankao, P.; Nobler, E. 6/1/2021 Reports

National Renewable Energy Laboratory

This report provides a "primer" of key concepts and metrics relevant to energy equity and justice. It discusses tenets of energy justice aimed to foster equity in DOE projects.

Clean Cities Annual Metrics Report 2009 (Revised) Johnson, C. 8/10/2011 Reports

National Renewable Energy Laboratory, Golden, Colorado

Each year, the U.S. Department of Energy (DOE) asks Clean Cities coordinators to submit an annual report of their activities and accomplishments for the previous calendar year. Data and information are submitted to an online database that is maintained as part of the Alternative Fuels and Advanced Vehicles Data Center (AFDC) at the National Renewable Energy Laboratory (NREL). Coordinators submit a range of data that characterizes the membership, funding, projects, and activities of their coalitions. They also submit data about sales of alternative fuels, deployment of alternative fuel vehicles (AFVs), hybrid electric vehicles (HEVs), idle reduction initiatives, fuel economy activities, and programs to reduce vehicle miles driven. NREL analyzes the data and translates them into gasoline reduction impacts, which are summarized in this report.

Run On Less - Electric Report 1/19/2022 Reports

North American Council for Freight Efficiency, Fort Wayne, Indiana

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.

National Park Service Bus Electrification Study: 2020 Report Gilleran, M.; Kotz, A.; Eudy, L.; Kelly, K. 2/1/2021 Reports

National Renewable Energy Laboratory, Golden, Colorado

This report summarizes important considerations for implementing battery electric buses (BEBs) in the three national park fleets, detailing information about current buses at each fleet, electric bus demonstration vehicles, and performance evaluations of BEBs in Zion, Bryce, and Yosemite. Results include in-use data collection metrics such as average bus speed, energy usage per trip, and daily distance traveled. Also covered are effects of high heating, ventilation, and air-conditioning system use to both heat and cool the buses, emissions estimations before and after use of electric buses, operating costs, electric vehicle infrastructure, maintenance, and bus driver user experience survey information.

Assessment of BQ-9000 Biodiesel Properties for 2017 Alleman, T.L. 1/30/2020 Reports

National Renewable Energy Laboratory, Golden, Colorado

Critical quality parameters from BQ-9000 member companies were analyzed for calendar year 2017. The National Biodiesel Board provided blinded and randomized data sets on 14 critical metrics for biodiesel quality. This report summarizes the results of the parameters and found that overall, biodiesel readily met the ASTM D6751 specification limits in 2017.

Assessment of BQ-9000 Biodiesel Properties for 2018 Alleman, T.L. 1/30/2020 Reports

National Renewable Energy Laboratory, Golden, Colorado

Critical quality parameters from BQ-9000 member companies were analyzed for calendar year 2018. The National Biodiesel Board provided blinded and randomized data sets on 14 critical metrics for biodiesel quality. This report summarizes the results of the parameters and found that overall, biodiesel readily met the ASTM D6751 specification limits in 2018.

Clean Cities Annual Metrics Report 2008 Bergeron, P.; Johnson, C. 9/1/2009 Reports

National Renewable Energy Laboratory, Golden, Colorado

Each year, the U.S. Department of Energy (DOE) asks Clean Cities coordinators to submit an annual report of their activities and accomplishments for the previous calendar year. Approximately 412 million gallons of gasoline were displaced through the Clean Cities efforts in 2008?14% more than in 2007. This displacement represents the combined results of the activities reported by coalitions (as analyzed by NREL) and the impacts of the Fuel Economy Guide and related activities (as estimated by ORNL). Three major changes were made to the Clean Cities survey this year: E10 is no longer counted toward petroleum displacement goals, coordinators no longer relied on a default assumption for the percent of time flex-fueled vehicles used alternative fuel, and B20 was moved from the AFV to the blends category. The first of these changes substantially reduced the reported petroleum displacement by blends from what they otherwise would have been in 2008. AFVs still accounted for the largest share (48%) of the total 412-million-gallon displacement. Fuel economy impacts (combined impacts of coalition and ORNL activity) were responsible for displacing 129 million gallons. The use of biofuels (ethanol and biodiesel) as fuels for AFVs and in low-level biodiesel blends displaced 100 million gallons, or 24% of the total, and idle reduction and HEV technologies combined to displace 20 million gallons. 2008 was the first year that greenhouse gas (GHG) reductions were estimated for Clean Cities activities. The program kept a total of 2.7 million tons of carbon dioxide equivalent (CO2e) from being emitted to the atmosphere?the equivalent of removing over 507,000 passenger cars from U.S. roads.

Co-Optimization of Fuels & Engines. Toxicology and Biodegradability of Tier Three Gasoline Blendstocks: Literature Review of Available Data Alleman, T.L.; Smith, D. 9/24/2019 Reports

National Renewable Energy Laboratory, Golden, Colorado

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.

When Does Electrifying Shared Mobility Make Economic Sense? Pavlenko, N.; Slowik, P.; Lutsey, N. 1/14/2019 Reports

International Council on Clean Transportation, Washington, D.C.

Over the past several years, the reach and use of shared vehicles has expanded significantly throughout the United States, particularly in large metropolitan areas. Use of ride-hailing fleets, often referred to as transportation network companies, is especially on the rise. The deployment of plug-electric vehicles (PEVs) has accelerated in many of the same urban areas experiencing growth in shared mobility. This report assesses the timing of cost-effectively electrifying shared mobility fleets in U.S. cities, with a focus on ride-hailing. The study includes a total cost of operation metric for conventional vehicles, hybrid electric vehicles, and PEVs in eight U.S. cities to assess changing purchase and operating costs through 2025.

Notes:

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

Clean Cities Annual Metrics Report 2007 Johnson, C.; Bergeron, P. 9/1/2008 Reports

National Renewable Energy Laboratory, Golden, Colorado; National Renewable Energy Laboratory, Golden, Colorado

This report summarizes the Department of Energy's Clean Cities coalition accomplishments in 2007, including petroleum displacement data, membership, funding, sales of alternative fuel blends, deployment of AFVs and HEVs, idle reduction initiatives, and fuel economy activities.

The Development of Vocational Vehicle Drive Cycles and Segmentation Duran, A.; Phillips, C.; Konan, A.; Kelly, K. 9/12/2017 Reports

National Renewable Energy Laboratory, Golden, Colorado

Under a collaborative interagency agreement between the U.S. Environmental Protection Agency and the U.S Department of Energy (DOE), the National Renewable Energy Laboratory (NREL) performed a series of in-depth analyses to characterize the on-road driving behavior including distributions of vehicle speed, idle time, accelerations and decelerations, and other driving metrics of medium- and heavy-duty vocational vehicles operating within the United States. As part of this effort, NREL researchers segmented U.S. medium- and heavy-duty vocational vehicle driving characteristics into three distinct operating groups or clusters using real world drive cycle data collected at 1 Hz and stored in NREL's Fleet DNA database. The Fleet DNA database contains millions of miles of historical real-world drive cycle data captured from medium- and heavy vehicles operating across the United States. The data encompass data from existing DOE activities as well as contributions from valued industry stakeholder participants. For this project, data captured from 913 unique vehicles comprising 16,250 days of operation were drawn from the Fleet DNA database and examined. The Fleet DNA data used as a source for this analysis has been collected from a total of 30 unique fleets/data providers operating across 22 unique geographic locations spread across the United States. This includes locations with topology ranging from the foothills of Denver, Colorado, to the flats of Miami, Florida. The range of fleets, geographic locations, and total number of vehicles analyzed ensures results that include the influence of these factors. While no analysis will be perfect without unlimited resources and data, it is the researchers understanding that the Fleet DNA database is the largest and most thorough publicly accessible vocational vehicle usage database currently in operation. This report includes an introduction to the Fleet DNA database and the data contained within, a presentation of the results of the statistical analysis performed by NREL, review of the logistic model developed to predict cluster membership, and a discussion and detailed summary of the development of the vocational drive cycle weights and representative transient drive cycles for testing and simulation. Additional discussion of known limitations and potential future work are also included in the report content.

Clean Cities Annual Metrics Report 2006 Bergeron, P.; Putsche, V. 7/1/2007 Reports

National Renewable Energy Laboratory, Golden, Colorado; National Renewable Energy Laboratory, Golden, Colorado

Clean Cities coordinators submit an annual report of their activities and accomplishments for the previous calendar year. Coordinators submit a range of data that characterize the membership, funding, projects, and activities of their coalitions as well as data about sales of alternative fuel blends, deployment of alternative fuel vehicles, hybrid electric vehicles, idle reduction initiatives, and fuel economy activities. NREL analyzes the data and translates them into gasoline reduction impacts.</p><p>Survey results indicate that about 375 million gallons of gasoline were displaced through Clean Citiew efforts in 2006, 50 percent more than in 2005. Alternative fuel vehicles accounted for 71 percent of the reduction. Biofuels (ethanol and biodiesel) used in AFVs displaced 128 million gallons, 34 percent of the total 375 million.

Program Analysis Methodology Office of Transportation Technologies Quality Metrics Final Report 2001 Patterson, P.; Maples, J.;Moore, J.; Birky, A. 2/23/2000 Reports

U.S. Department of Energy, Office of Transportation Technologies

This report focuses on the projected benefits of the forty-one programs currently supported through the Office of Transportation Technologies (OTT) under EE/RE. For analytical purposes, these various benefits are subdivided in terms of Planning Units which are related to the OTT program structure. The scope of this report encompasses light vehicles including passenger automobiles and class 1 & 2 (light) trucks, as well as class 3 through 8 (heavy) trucks. The range of light vehicle technologies investigated include electric, hybrid electric, fuel cell, advanced diesel, natural gas fueled, and stratified charge direct-injection. A future distribution of light vehicle sizes, applications, and performance levels is calculated based on current vehicle stocks and trends, and consumer preferences. The heavy vehicle technologies investigated include hybrid, natural gas-fueled and advanced diesel. The effects of advanced materials technologies across all vehicle types are also analyzed.

Notes: This report is available in PDF format on the Office of Transportation Technology's Web site http://www.ott.doe.gov/facts/publications/QM2001.pdf

Environmental Assessment of Plug-In Hybrid Electric Vehicles, Vol. 1: Nationwide Greenhouse Gas Emissions (Executive Summary) 7/1/2007 Reports

Electric Power Research Institute, Palo Alto, California

This report describes the first detailed, nationwide analysis of greenhouse gas (GHG) impacts of plug-in hybrid electric vehicles. The "well-to-wheels" analysis accounted for emissions from the generation of electricity to charge PHEV batteries and from the production, distribution, and consumption of gasoline and diesel motor fuels. Conclusions indicate annual and cumulative GHG emissions are reduced significantly across each of the nine scenario combinations of PHEV fleet penetration; and annual GHG emissions reductions were significant in every scenario combination of the study. Cumulative GHG emissions reductions between 2010 and 2050 can range from 3.4 to 10.3 billion metric tons. Each region of the country will yield reductions in GHG emissions.

Notes: To download entire document go to: http://www.epri.com/abstracts/Pages/ProductAbstract.aspx?productId=000000000001015325 EPRI makes no warranty or representations, expressed or implied, with respect to the accuracy, completeness, or usefulness of the information contained in the material. Additionally, EPRI assumes no liability with respect to the use of, or for damages resulting from the use of the material.

Ethanol Can Contribute to Energy and Environmental Goals Farrell, A.E.; Plevin, R.J.; Turner, B.T.; Jones, A.D.; O'Hare, M.; Kammen, D.M. 1/1/2006 Journal Articles & Abstracts

Energy and Resources Group, University of California, Berkeley, California; Energy and Resources Group, University of California, Berkeley, California; Energy and Resources Group and Goldman School of Public Policy, University of California, Berkeley, California; Energy and Resources Group, University of California, Berkeley, California; Goldman School of Public Policy, University of California, Berkeley, California; Energy and Resources Group, Goldman School of Public Policy, and Renewable and Appropriate Energy Laboratory, University of California, Berkeley, California;

To study the potential effects of increased biofuel use, we evaluated six representative analyses of fuel ethanol. Studies that reported negative net energy incorrectly ignored coproducts and used some obsolete data. All studies indicated that current corn ethanol technologies are much less petroleum-intensive than gasoline but have greenhouse gas emissions similar to those of gasoline. However, many important environmental effects of biofuel production are poorly understood. New metrics that measure specific resource inputs are developed, but further research into environmental metrics is needed. Nonetheless, it is already clear that large-scale use of ethanol for fuel will almost certainly require cellulosic technology.