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Utilities Power Change: Engaging Commercial Customers in Workplace Charging
6/29/2016
As stewards of an electric grid that is available almost anywhere people park, utilities that support workplace charging are uniquely positioned to help their commercial customers be a part of the rapidly expanding network of charging infrastructure. Utilities understand the distinctive challenges of their customers, have access to technical information about electrical infrastructure, and have deep experience modeling and managing demand for electricity. This case study highlights the experiences of two utilities with workplace charging programs.
Authors: Lommele, S.; Dafoe, W.
Clean Cities Alternative Fuel Price Report, April 2016
6/8/2016
The Clean Cities Alternative Fuel Price Report for April 2016 is a quarterly report on the prices of alternative fuels in the U.S. and their relation to gasoline and diesel prices. This issue describes prices that were gathered from Clean Cities coordinators and stakeholders between April 1, 2016 and April 15, 2016, and then averaged in order to determine regional price trends by fuel and variability in fuel price within regions and among regions. The prices collected for this report represent retail, at-the-pump sales prices for each fuel, including Federal and state motor fuel taxes.
Table 2 reports that the nationwide average price (all amounts are per gallon) for regular gasoline has increased 8 cents from $1.98 to $2.06; diesel decreased 10 cents from $2.23 to $2.13; CNG price decreased 7 cents from $2.09 to $2.02; ethanol (E85) decreased 2 cents from $1.86 to $1.84; propane decreased 8 cents from $2.85 to $2.77; and biodiesel (B20) has decreased 18 cents from $2.41 to 2.23.
According to Table 3, CNG is $.04 less than gasoline on an energy-equivalent basis, while E85 is $0.33 more than gasoline on an energy-equivalent basis.
Authors: Bourbon, E.
Zero Emission Bay Area (ZEBA) Fuel Cell Bus Demonstration Results: Fifth Report
6/1/2016
This report presents results of a demonstration of fuel cell electric buses (FCEB) operating in Oakland, California. Alameda-Contra Costa Transit District (AC Transit) leads the Zero Emission Bay Area (ZEBA) demonstration, which includes 13 advanced-design fuel cell buses and two hydrogen fueling stations. The ZEBA partners are collaborating with the U.S. Department of Energy (DOE) and DOE's National Renewable Energy Laboratory (NREL) to evaluate the buses in revenue service. NREL has published four previous reports describing operation of these buses. This report presents new and updated results covering data from January 2015 through December 2015.
Authors: Eudy, L.; Post, M.; Jeffers, M.
Emissions Associated with Electric Vehicle Charging: Impact of Electricity Generation Mix, Charging Infrastructure Availability, and Vehicle Type
4/11/2016
With the aim of reducing greenhouse gas emissions associated with the transportation sector, policy-makers are supporting a multitude of measures to increase electric vehicle adoption. The actual level of emission reduction associated with the electrification of the transport sector is dependent on the contexts that determine when and where drivers charge electric vehicles. This analysis contributes to our understanding of the degree to which a particular electricity grid profile, vehicle type, and charging patterns impact CO2 emissions from light-duty, plug-in electric vehicles. We present an analysis of emissions resulting from both battery electric and plug-in hybrid electric vehicles for four charging scenarios and five electricity grid profiles. A scenario that allows drivers to charge electric vehicles at the workplace yields the lowest level of emissions for the majority of electricity grid profiles. However, vehicle emissions are shown to be highly dependent on the percentage of fossil fuels in the grid mix, with different vehicle types and charging scenarios resulting in fewer emissions when the carbon intensity of the grid is above a defined level. Restricting charging to off-peak hours results in higher total emissions for all vehicle types, as compared to other charging scenarios.
Authors: McLaren, J.; Miller, J.; O'Shaughnessy, E.; Wood, E.; Shapiro, E.
Case Study - Propane Bakery Delivery Step Vans
4/1/2016
A switch to propane from diesel by a major Midwest bakery fleet showed promising results, including a significant displacement of petroleum, a drop in greenhouse gases and a fuel cost savings of seven cents per mile, according to a study recently completed by the U.S. Department of Energy's Argonne National Laboratory for the Clean Cities program.
Authors: Laughlin, M.; Burnham, A.
Assessment of Vehicle Sizing, Energy Consumption and Cost through Large Scale Simulation of Advanced Vehicle Technologies
3/28/2016
The U. S. Department of Energy (DOE) Vehicle Technologies Office (VTO) supports new technologies to increase energy security in the transportation sector at a critical time for global petroleum supply, demand, and pricing. VTO works in collaboration with industry and research organizations to identify the priority areas of research needed to develop advanced vehicle technologies to reduce and eventually eliminate petroleum use, and reduce emissions of greenhouse gases, primarily carbon dioxide from carbon-based fuels. The objective of the present study was to evaluate the benefits of the DOE-VTO for a wide range of vehicle applications, powertrain configurations and component technologies for different timeframes and quantify the potential future petroleum displacement up to 2045, as well as the cost evolution. While it is not possible to simulate all the different combinations, more than 2000 vehicles were simulated in the study.
Authors: Moawad, A.; Kim, N.; Shidore, N.; Rousseau, A.
Drive Electric Vermont Case Study
3/21/2016
The U.S. Department of Energy's EV Everywhere Grand Challenge is working to identify barriers and opportunities to plugin electric vehicle (PEV) adoption. The Department of Energy developed a case study with Drive Electric Vermont to identify the lessons learned and best practices for successful PEV and charging infrastructure deployment in small and midsize communities. This is a snapshot of the findings.
Authors: Wagner, F.; Roberts, D.; Francfort, J.; White, S.
Workplace Charging: Charging Up University Campuses
3/4/2016
This case study features the experiences of university partners in the U.S. Department of Energy's (DOE) Workplace Charging Challenge with the installation and management of plug-in electric vehicle (PEV) charging stations.
Authors: Giles, C.; Ryder, C.; Lommele, S.
PEV Workplace Charging Costs and Employee Use Fees
3/1/2016
On December 4, 2015, President Obama signed Fixing America’s Surface Transportation (FAST) Act. Section 1413(c), which authorizes the General Services Administration to install, construct, operate, and maintain on a reimbursable basis, plug-in electric vehicle (PEV) charging infrastructure. The U.S. Department of Energy requested that Idaho National Laboratory perform an analysis to estimate charging infrastructure and electricity costs that the federal government would incur. This analysis uses five different PEV charging infrastructure scenarios to provide 10-year total costs, cost per charge event, and cost per kilowatt hour to install and operate PEV charging infrastructure. The five charging infrastructure scenarios provide alternating current (AC) 110-Volt (V), AC 220-V, or direct current (DC) 440-V power from the grid to PEVs. While every electric vehicle charger installation is unique, the costs shown and discussed in this report, as well as the energy used and charge frequencies, are based on the largest research sample of charging infrastructure use in the United States.
Authors: Francfort, J.
Clean Cities Technical Assistance Project (Tiger Teams)
2/18/2016
This two-page fact sheet describes Clean Cities' technical assistance (Tiger Teams) capabilities and projects, both completed and ongoing. Tiger Teams are a critical element of the Clean Cities program, providing on-the-ground consultation to help inform program strategies. The knowledge Tiger Team experts gain from these experiences often helps inform other alternative fuels activities, such as needed research, codes and standards revisions, and new training resources.
Clean Cities Alternative Fuel Price Report, January 2016
2/12/2016
The Clean Cities Alternative Fuel Price Report for January 2016 is a quarterly report on the prices of alternative fuels in the U.S. and their relation to gasoline and diesel prices. This issue describes prices that were gathered from Clean Cities coordinators and stakeholders between January 1, 2016 and January 15, 2016, and then averaged in order to determine regional price trends by fuel and variability in fuel price within regions and among regions. The prices collected for this report represent retail, at-the-pump sales prices for each fuel, including Federal and state motor fuel taxes.
Table 2 reports that the nationwide average price (all amounts are per gallon) for regular gasoline has decreased 37 cents from $2.35 to $1.98; diesel decreased 36 cents from $2.59 to $2.23; CNG price is unchanged at $2.09; ethanol (E85) decreased 32 cents from $2.18 to $1.86; propane decreased 5 cents from $2.90 to $2.85; and biodiesel (B20) has decreased 25 cents from $2.66 to 2.41.
According to Table 3, CNG is $.11 more than gasoline on an energy-equivalent basis, while E85 is $0.44 more than gasoline on an energy-equivalent basis.
Authors: Bourbon, E.
Renewable Fuel Standard Program: Standards for 2014, 2015, and 2016 and Biomass-Based Diesel Volume for 2017; Final Rule
2/12/2016
Under section 211 of the Clean Air Act, the Environmental Protection Agency (EPA) is required to set renewable fuel percentage standards every year. This action establishes the annual percentage standards for cellulosic biofuel, biomass-based diesel, advanced biofuel, and total renewable fuel that apply to all motor vehicle gasoline and diesel produced or imported in the years 2014, 2015, and 2016. The EPA is establishing a cellulosic biofuel volume for all three years that is below the applicable volume specified in the Act, and is also rescinding the cellulosic biofuel standard for 2011. Relying on statutory waiver authorities, the EPA is adjusting the applicable volumes of advanced biofuel and total renewable fuel for all three years. The 2016 standards are expected to spur further progress in overcoming current constraints in renewable fuel distribution infrastructure, which in turn is expected to lead to substantial growth over time in the production and use of renewable fuels. In this action, EPA is also establishing the applicable volume of biomass-based diesel for 2017. Finally, EPA is setting the compliance and attest reporting deadlines for the years 2013, 2014, and 2015, as well as finalizing regulatory amendments to clarify the scope of the existing algal biofuel pathway. This final rule is effective on February 12, 2016.
High Octane Fuel: Terminal Backgrounder
2/10/2016
The Bioenergy Technologies Office of the U.S. Department of Energy Office of Energy Efficiency and Renewable Energy sponsored a scoping study to assess the potential of ethanol-based high octane fuel (HOF) to reduce energy consumption and greenhouse gas emissions. When the HOF blend is made with 25%-40% ethanol by volume, this energy efficiency improvement is potentially sufficient to offset the reduced vehicle range often associated with the decreased volumetric energy density of ethanol. The purpose of this study is to assess the ability of the fuel supply chain to accommodate more ethanol at fuel terminals. Fuel terminals are midstream in the transportation fuel supply chain and serve to store and distribute fuels to end users. While there are no technical issues to storing more ethanol at fuel terminals, there are several factors that could impact the ability to deploy more ethanol. The most significant of these issues include the availability of land to add more infrastructure and accommodate more truck traffic for ethanol deliveries as well as a lengthy permitting process to erect more tanks.
Authors: Moriarty, K.
Consumer Views on Plug-in Electric Vehicles - National Benchmark Report
2/2/2016
Vehicle manufacturers, U.S. Department of Energy laboratories, universities, private researchers, and organizations from around the globe are pursuing advanced vehicle technologies that aim to reduce the consumption of petroleum in the form of gasoline and diesel. In order to make these technologies most appealing to the marketplace, they must take consumer sentiment into account. This report details study findings of broad American public sentiments toward issues that surround the advanced vehicle technologies of plug-in electric vehicles and is supported by the U.S. Department of Energy's Vehicle Technology Office in alignment with its mission to develop and deploy these technologies to improve energy security, provide mobility flexibility, reduce transportation costs, and increase environmental sustainability.
Authors: Singer, M.