Publications

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.

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.

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.

2015 Energy Balance for the Corn-Ethanol Industry

2/1/2016

The ratio of energy in a gallon of ethanol relative to the external fossil energy required to produce the corn and process and ship the ethanol is an important measure of sustainability of the corn ethanol industry. This study presents estimates of the current energy balance based on data collected by the USDA.

Authors: Gallagher, P.W.; Yee, W.C.; Baumes, H.S.

Foothill Transit Battery Electric Bus Demonstration Results

1/27/2016

Foothill Transit is collaborating with the California Air Resources Board and the U.S. Department of Energy's (DOE's) National Renewable Energy Laboratory (NREL) to evaluate its fleet of Proterra battery electric buses (BEBs) in revenue service. The focus of this evaluation is to compare performance of the BEBs to that of conventional technology and to track progress over time toward meeting performance targets. This project has also provided an opportunity for DOE to conduct a detailed evaluation of the BEBs and charging infrastructure. This report provides data on the buses from April 2014 through July 2015. Data are provided on a selection of compressed natural gas buses as a baseline comparison.

Authors: Eudy, L.; Prohaska, R.; Kelly, K.; Post, M.

Using Natural Gas for Vehicles: Comparing Three Technologies

1/4/2016

In the United States, natural gas as a fuel is typically used for medium- or heavy-duty vehicles in centrally-fueled fleets. It has been proposed for greater use as a fuel for light-duty vehicles (LDVs). This can mean burning natural gas in an internal combustion engine like those used in most gasoline- and diesel-powered vehicles on the road today. However, natural gas can also serve as the energy source for plug-in electric or hydrogen fuel cell electric vehicles. This fact sheet compares some efficiency and environmental metrics for three possible options for using natural gas in LDVs.

2016 Propane Market Outlook; Key Market Trends, Opportunities, and Threats Facing the Consumer Propane Industry Through 2025

1/1/2016

The consumer propane market is in the midst of a period of very rapid change. The continuing development of propane engine fuel markets is expected to provide significant growth opportunities. Propane sales to traditional propane markets are expected to stabilize due to lower propane prices. However, traditional markets will continue to face competition from electric technologies, expansions of the natural gas distribution system, long term energy efficiency trends, and other shifts in the competitive market environment that are changing the nature of the consumer propane business. At the same time, significant changes in propane production, transportation infrastructure, and exports continue to require changes to propane marketer supply planning practices. These transformations are compelling propane marketers to adapt to new market conditions while also providing an opportunity to seize new opportunities expected to emerge over the next decade. In this report, ICF evaluates the major market factors driving propane demand, and reviews the outlook for propane markets through 2025.

Authors: Sloan, M.

Clean Cities 2014 Annual Metrics Report

12/22/2015

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.

Authors: Johnson, C.; Singer, M.

High-Octane Mid-Level Ethanol Blend Market Assessment

12/16/2015

For years, the United States government has been promoting increased use of biofuels, including ethanol from non-food feedstocks. However, the country has reached the ethanol blend wall, where more ethanol is produced domestically than can be blended into standard gasoline.

This report evaluates the various paths toward adoption of high-octane ethanol blends in the United States. Modeling indicates the potential for a robust market and the study's findings prioritize barriers and propose associated solutions.

Authors: Johnson, C.; Newes, E.; Brooker, A.; McCormick, R.; Peterson, S.; Leiby, P.; Martinez, R.U.; Oladosu, G.; Brown, M.L.

Costs Associated with Non-Residential Electric Vehicle Supply Equipment

11/30/2015

As more drivers purchase plug-in electric vehicles (PEVs), there is a growing need for a network of electric vehicle supply equipment (EVSE) to provide power to those vehicles. PEV drivers will primarily charge their vehicles using residential EVSE, but there is also a need for non-residential EVSE in workplace, public, and fleet settings. This report provides information about the costs associated with purchasing, installing, and owning non-residential EVSE.

Developing a Natural Gas-Powered Bus Rapid Transit Service: A Case Study

11/4/2015

The Roaring Fork Transit Authority (RFTA) and its VelociRFTA Bus Rapid Transit (BRT) program are unique in many ways. For example, VelociRFTA was the first rural BRT system in the United States and the operational environment of the VelociRFTA BRT is one of the most severe in the country, with extreme winter temperatures and altitudes close to 8,000 feet. RFTA viewed high altitude operation as the most challenging characteristic when it began considering the use of natural gas. RFTA is the second-largest public transit system in Colorado behind Denver's Regional Transportation District (RTD), and it is one of the largest rural public transit systems in the country. In 2013, RFTA accepted delivery of 22 new compressed natural gas (CNG) buses that went into service after completion of maintenance and refueling facilities earlier that year. This paper examines the lessons learned from RFTA's experience of investigating--and ultimately choosing--CNG for their new BRT program and focuses on the unique environment of RFTA's BRT application; the decision process to include CNG fueling in the project; unforeseen difficulties encountered in the operation of CNG buses; public perception; cost comparison to competing fuels; and considerations for indoor fueling facilities and project funding.

Authors: Mitchell, G.

American Fuel Cell Bus Project Evaluation: Second Report

9/14/2015

This report presents results of the American Fuel Cell Bus (AFCB) Project, a demonstration of fuel cell electric buses operating in the Coachella Valley area of California. The prototype AFCB was developed as part of the Federal Transit Administration's (FTA's) National Fuel Cell Bus Program. Through the non-profit consortia CALSTART, a team led by SunLine Transit Agency and BAE Systems developed a new fuel cell electric bus for demonstration. SunLine added two more AFCBs to its fleet in 2014 and another in 2015. FTA and the AFCB project team are collaborating with the U.S. Department of Energy (DOE) and DOE's National Renewable Energy Laboratory to evaluate the buses in revenue service. This report summarizes the performance results for all four buses through June 2015.

Authors: Eudy, L.; Post, M.

Interstate Electrification Improvement Project Final Report

9/4/2015

This report provides an overview of the Shorepower Truck Electrification Project, which started in May 2011 and ended in March 2015. The project provided financial incentives on idle reduction equipment to 5,000 trucks, to install equipment compatible with shore power. It generated the largest dataset to date on shore power truck stop electrification utilization and use patterns. This report summarizes project data, which provided insight into driver behavior and acceptance, evidence of cost savings, experience with system operations and management; and data for guiding future development of shore power.

Authors: Puckette, M.; Kim, J.

Quadrennial Technology Review 2015

9/1/2015

The 2015 Quadrennial Technology Review (QTR) examines the status of the science and technology that are the foundation of our energy system, together with the research, development, demonstration, and deployment (RDD&D) opportunities to advance them. It focuses primarily on technologies with commercialization potential in the midterm and beyond. It frames various trade-offs that all energy technologies must balance across such dimensions as cost, security and reliability of supply, diversity, environmental impacts, land use, and materials use. Additionally, it provides data and analysis on RDD&D pathways to assist decision makers as they set priorities, within budget constraints, to develop more secure, affordable, and sustainable energy services.

CNG and Fleets: Building Your Business Case

9/1/2015

Two online resources help fleets evaluate the economic soundness of a compressed natural gas program. The National Renewable Energy Laboratory's (NREL's) Vehicle Infrastructure and Cash-Flow Evaluation (VICE 2.0) model and the accompanying report, Building a Business Case for Compressed Natural Gas in Fleet Applications, are uniquely designed for fleet managers considering an investment in CNG and can help ensure wise investment decisions about CNG vehicles and infrastructure.