2015 Natural Gas Vehicle Research Roadmap PDF Download

Author: Alex Schroeder
Publisher:
ISBN:
Category : Liquefied natural gas
Languages : en
Pages : 60

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Author:
Publisher:
ISBN:
Category : Liquefied natural gas
Languages : en
Pages : 58

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Author:
Publisher:
ISBN:
Category : Liquefied natural gas
Languages : en
Pages : 74

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Author: United States. Congress. Senate. Committee on Finance. Subcommittee on Energy, Natural Resources, and Infrastructure
Publisher:
ISBN:
Category : Gas as fuel
Languages : en
Pages : 88

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Author: John G. Ingersoll
Publisher: The Fairmont Press, Inc.
ISBN: 9780881732184
Category : Technology & Engineering
Languages : en
Pages : 468

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Book Description
Recent advances in the technologies necessary to make natural gas vehicles a practical reality have led to a surge of interest in developing the necessary infrastructure for broader market penetration. This important reference contains a compendium of up-to-the-minute information addressing every aspect of natural gas vehicles, including cost parameters, environmental benefits, and an examination of market penetration strategies. The book provides a comprehensive assessment of natural gas as a vehicular fuel, covering availability issues, recent breakthroughs in vehicle on-board storage, and comparison with other low-polluting fuel technologies, including hydrogen and methane. The roles for federal, state and local governments, auto manufacturers and natural gas suppliers in making both natural gas vehicles and the fuel to operate them widely available, are examined.

Author: Congressional Research Service
Publisher: Createspace Independent Publishing Platform
ISBN: 9781505203714
Category :
Languages : en
Pages : 26

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The increase in domestic supplies of natural gas has raised new interest in expanding its use in the transportation sector. This report considers issues related to wider use of natural gas as a fuel in passenger cars and commercial vehicles. The attractiveness of natural gas as a vehicle fuel is premised in large part on its low price (on an energy-equivalent basis) compared to gasoline and diesel fuel. When prices for gasoline and diesel are relatively low or natural gas prices are relatively high, natural-gas-based fuels lose much of their price advantage. While natural gas has other benefits-such as producing lower emissions than gasoline and diesel and protecting users of transportation fuels from the volatility of the international oil market-it is largely the cost advantage, if any, that will determine the future attractiveness of natural gas vehicles. There are a number of technology pathways that could lead to greater use of natural gas in transportation. Some require pressurized systems to use natural gas in a gaseous state, and others convert natural gas to a liquid. Two of the most widely discussed options use compressed natural gas (CNG) and liquefied natural gas (LNG). Other technological approaches use liquefied petroleum gas (LPG), propane, and hydrogen. In addition, natural gas can be used to generate electricity to power electric vehicles. Increasing the use of natural gas to fuel vehicles would require creation of an extensive nationwide refueling infrastructure. Although a small number of CNG vehicles have been on U.S. roads for more than 20 years, CNG use has been limited to vehicles that return to a central garage for refueling each day, such as refuse trucks, short-haul trucks, and city buses. LNG, on the other hand, requires large insulated tanks to keep the liquefied gas at a very low temperature and is therefore seen as more suitable for long-haul trucks. In both cases, the limited availability of refueling stations has limited the distances and routes these vehicles may travel. Congress has taken a strong interest in spurring production and use of natural gas vehicles. Legislation has been introduced on a wide range of proposals that would equalize the tax treatment of LNG and diesel fuels, provide tax credits for natural gas vehicles and refueling equipment, require the production of vehicles that could run on several different fuels (such as gasoline and CNG), increase federal research and development on natural gas vehicle tank and fuel line technologies, and revise vehicle emission regulations to encourage manufacturers to produce more CNG passenger cars. Legislation pending in the 113th Congress includes proposals that would extend expired tax credits for refueling property and fuel cell vehicles (S. 2260), authorize the use of energy savings performance contracts to support the use of natural gas and electric vehicles (S. 761), and require the U.S. Postal Service to study the feasibility of using natural gas and propane in long-haul trucks (S. 1486).

Author: Hayley Ackerman
Publisher: Nova Science Publishers
ISBN: 9781634639712
Category : Alternative fuel vehicle industry
Languages : en
Pages : 0

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The increase in domestic supplies of natural gas has raised new interest in expanding its use in the transportation sector. This book considers issues related to wider use of natural gas as a fuel in passenger cars and commercial vehicles. This book is designed to help fleets understand the cost factors associated with fueling infrastructure for compressed natural gas (CNG) vehicles. It provides estimated cost ranges for various sizes and types of CNG fueling stations and an overview of factors that contribute to the total cost of an installed station; and describes how the National Renewable Energy Laboratory (NREL) used the VICE model to establish guidance for fleets making decisions about using CNG.

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 2

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This fact sheet describes the status of the Next Generation Natural Gas Vehicle (NGNGV) activity, including goals, R & D progress, NGV implementation, and the transition to hydrogen.

Author:
Publisher:
ISBN:
Category :
Languages : en
Pages :

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Vehicular natural gas consumption is on the rise, totaling nearly 200 million GGEs in 2005, despite declines in total NGV inventory in recent years. This may be attributed to greater deployment of higher fuel use medium- and heavy-duty NGVs as compared to the low fuel use of the natural gas-powered LDVs that exited the market through attrition, many of which were bi-fuel. Natural gas station counts are down to about 1100 from their peak of about 1300. Many of the stations that closed were under-utilized or not used at all while most new stations were developed with greater attention to critical business fundamentals such as site selection, projected customer counts, peak and off-peak fueling capacity needs and total station throughput. Essentially, the nation's NGV fueling infrastructure has been--and will continue--going through a 'market correction'. While current economic fundamentals have shortened payback and improved life-cycle savings for investment in NGVs and fueling infrastructure, a combination of grants and other financial incentives will still be needed to overcome general fleet market inertia to maintain status quo. Also imperative to the market's adoption of NGVs and other alternative fueled vehicle and fueling technologies is a clear statement of long-term federal government commitment to diversifying our nation's transportation fuel use portfolio and, more specifically, the role of natural gas in that policy. Based on the current NGV market there, and the continued promulgation of clean air and transportation policies, the Western Region is--and will continue to be--the dominant region for vehicular natural gas use and growth. In other regions, especially the Northeast, Mid-Atlantic states and Texas, increased awareness and attention to air quality and energy security concerns by the public and - more important, elected officials--are spurring policies and programs that facilitate deployment of NGVs and fueling infrastructure. Because of their high per-vehicle fuel use, central fueling and sensitivity to fuel costs, fleets will continue to be the primary target for NGV deployment and station development efforts. The transit sector is projected to continue to account for the greatest vehicular natural gas use and for new volume growth. New tax incentives and improved life-cycle economics also create opportunities to deploy additional vehicles and install related vehicular natural gas fueling infrastructure in the refuse, airport and short-haul sectors. Focusing on fleets generates the highest vehicular natural gas throughout but it doesn't necessarily facilitate public fueling infrastructure because, generally, fleet operators prefer not to allow public access due to liability concerns and revenue and tax administrative burdens. While there are ways to overcome this reluctance, including ''outside the fence'' retail dispensers and/or co-location of public and ''anchor'' fleet dispensing capability at a mutually convenient existing or new retail location, each has challenges that complicate an already complex business transaction. Partnering with independent retail fuel station companies, especially operators of large ''truck stops'' on the major interstates, to include natural gas at their facilities may build public fueling infrastructure and demand enough to entice the major oil companies to once again engage. Garnering national mass media coverage of success in California and Utah where vehicular natural gas fueling infrastructure is more established will help pave the way for similar consumer market growth and inclusion of public accessibility at stations in other regions. There isn't one ''right'' business model for growing the nation's NGV inventory and fueling infrastructure. Different types of station development and ownership-operation strategies will continue to be warranted for different customers in different markets. Factors affecting NGV deployment and station development include: regional air quality compliance status and the state and/or local political climate regarding mandates and/or incentives; fuel price differentials between natural gas, diesel and gasoline; existence of NGV fleets and fueling infrastructure; prospective customers financial resources; local real estate availability, cost and traffic access; regional construction labor rates; code compliance and permitting issues; local gas utility and PSC posture regarding NGV market support; and existence of a sufficient number of vehicle dealers to assure competitive pricing and technical support capability. Lack of 'feet on the street' is curbing the potential for NGV deployment and expanded NGV fueling infrastructure.

Author: Department of Energy
Publisher:
ISBN: 9781973178569
Category :
Languages : en
Pages : 339

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This comprehensive and up-to-date book provides a unique guide to natural gas vehicles, compiling ten official documents with details of every aspect of the issue: CNG and LNG designs, success stories, references, information on safety and refueling issues, and much more. Contents include: Part 1: UPS CNG Truck Fleet Final Results, Alternative Fuel Truck Evaluation Project * Part 2: Clean Cities 2010 Vehicle Buyer's Guide - Natural Gas, Propane, Hybrid Electric, Ethanol, Biodiesel * Part 3: Natural Gas Vehicles: Status, Barriers, and Opportunities * Part 4: White Paper on Natural Gas Vehicles: Status, Barriers, and Opportunities * Part 5: Natural Gas Passenger Vehicles: Availability, Cost, and Performance * Part 6: Clean Alternative Fuels: Compressed Natural Gas * Part 7: Clean Alternative Fuels: Liquefied Natural Gas * Part 8: EPA Case Study: Tests Demonstrate Safety of Natural-Gas Vehicles for King County Police * Part 9: Resource Guide for Heavy-Duty LNG Vehicles, Infrastructure, and Support Operations * Part 10: Senate Hearing - Usage of Natural Gas - To Assess the Opportunities For, Current Level of Investment In, and Barriers to the Expanded Usage of Natural Gas as a Fuel for Transportation (2012) While natural gas is often used as the energy source for residential, commercial, and industrial processes, engines designed to run on gasoline or diesel can also be modified to operate on natural gas - a clean burning fuel. Natural gas vehicles (NGVs) can be dedicated to natural gas as a fuel source, or they can be bi-fuel, running on either natural gas or gasoline, or natural gas or diesel, although most natural gas engines are spark ignited. Natural gas engine technologies can differ in the following ways: the method used to ignite the fuel in the cylinders, the air-fuel ratio, the compression ratio, and the resulting performance and emissions capabilities. Natural gas has a high octane rating, which in spark ignition engines (usual for CNG) allows an increase in power. However, natural gas occupies a larger volume in the cylinder than liquid fuels, reducing the number of oxygen molecules (share of air in the cylinder), which reduces power. The net effect on natural gas power vs. gasoline is relatively neutral. However, since it is a gaseous fuel at atmospheric pressure and occupies a considerably larger storage volume per unit of energy than refined petroleum liquids, it is stored on-board the vehicle in either a compressed gaseous or liquefied state. The storage requirements are still much greater than for refined petroleum products. This increases vehicle weight, which tends to reduce fuel economy. To become compressed natural gas (CNG), it is pressurized in a tank at up to 3,600 pounds per square inch. Typically, in sedans, the tank is mounted in the trunk or replaces the existing fuel tank; on trucks, the tank is mounted on the frame; and on buses, it is mounted on top of the roof. Although tanks can be made completely from metal, they are typically composed of metal liners reinforced by a wrap of composite fiber material with pressure-relief devices designed to withstand impact. Tanks do increase the vehicle weight, and with the lower energy density of natural gas, vehicle ranges are generally reduced. To become liquefied natural gas (LNG), natural gas is cooled to -260 °F and filtered to remove impurities. LNG is stored in double-wall, vacuum-insulated pressure tanks and is primarily used on heavy-duty trucks, providing increased range over CNG. NGVs and their respective fueling systems must meet stringent industry and government standards for compression, storage, and fueling. They are designed to perform safely during both normal operations and crash situations. Nozzles and vehicle receptacles are designed to keep fuel from escaping.