Sentences with phrase «gas analysis technology»

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John Staub, leader of the EIA's Oil and Gas Exploration and Production Analysis team, says the agency's model «includes technology change,» which, year after year, increases the amount of gas that can be extractGas Exploration and Production Analysis team, says the agency's model «includes technology change,» which, year after year, increases the amount of gas that can be extractgas that can be extracted.

Becker serves as a consultant for Austria - based gas analysis instrument - maker Ionicon Analytik, GmbH, which makes proton transfer reaction — mass spectrometry (PTR — MS) technology that the company claims can distinguish substances having very similar molecular structures as well as correctly identify explosives, chemical warfare agents and substances that could be combined to create a bomb.

A wide selection of equipment for chemical and geochemical analyses with emphasis in the oil and gas sector, and research activities for environmental technologies development.

Many of these customers are working at the forefront of new technology - in the fields of plasma research, surface science, vacuum processing and gas analysis.

The analysis, published in the ACS journal Environmental Science & Technology, addressed both fuel cycle and vehicle manufacturing cycle for the following vehicle types: gasoline and diesel internal combustion engine vehicles (ICEVs); flex fuel vehicles; compressed natural gas (CNG) vehicles; hybrid electric vehicles (HEVs); hydrogen fuel cell electric vehicles (FCEVs); battery electric vehicles (BEVs); and plug - in hybrid electric vehicles (PHEVs).

analysis technology investments climate greenhouse - gas - emissions co234 methane ozone jack - gerard american - petroleum - institute

«[Howarth et al.'s] analysis is seriously flawed in that they significantly overestimate the fugitive emissions associated with unconventional gas extraction, undervalue the contribution of «green technologies» to reducing those emissions to a level approaching that of conventional gas, base their comparison between gas and coal on heat rather than electricity generation (almost the sole use of coal), and assume a time interval over which to compute the relative climate impact of gas compared to coal that does not capture the contrast between the long residence time of CO2 and the short residence time of methane in the atmosphere.»

For example, according to IEA analysis presented in the special section on urban energy systems in Energy Technology Perspectives 2016 (ETP 2016) the gradual evolution of urban transport systems to encourage walking, cycling and public transit could save $ 21 trillion by 2050, while at the same time making a significant dent in greenhouse gas emissions.

electric power plants are: (1) survey and assess the capacity, cost, and location of potential depleted gas and oil wells that are suitable CO -LCB- sub 2 -RCB- repositories (with the cooperation of the oil and gas industry); (2) conduct research on the feasibility of ocean disposal, with objectives of determining the cost, residence time, and environmental effects for different methods of CO -LCB- sub 2 -RCB- injection; (3) perform an in - depth survey of knowledge concerning the feasibility of using deep, confined aquifers for disposal and, if feasible, identify potential disposal locations (with the cooperation of the oil and gas industry); (4) evaluate, on a common basis, system and design alternatives for integration of CO -LCB- sub 2 -RCB- capture systems with emerging and advanced technologies for power generation; and prepare a conceptual design, an analysis of barrier issues, and a preliminary cost estimate for pipeline networks necessary to transport a significant portion of the CO -LCB- sub 2 -RCB- to potentially feasible disposal locations.

The research needs that have high priority in establishing the technical, environmental, and economic feasibility of large - scale capture and disposal of CO -LCB- sub 2 -RCB- from electric power plants are: (1) survey and assess the capacity, cost, and location of potential depleted gas and oil wells that are suitable CO -LCB- sub 2 -RCB- repositories (with the cooperation of the oil and gas industry); (2) conduct research on the feasibility of ocean disposal, with objectives of determining the cost, residence time, and environmental effects for different methods of CO -LCB- sub 2 -RCB- injection; (3) perform an in - depth survey of knowledge concerning the feasibility of using deep, confined aquifers for disposal and, if feasible, identify potential disposal locations (with the cooperation of the oil and gas industry); (4) evaluate, on a common basis, more» system and design alternatives for integration of CO -LCB- sub 2 -RCB- capture systems with emerging and advanced technologies for power generation; and prepare a conceptual design, an analysis of barrier issues, and a preliminary cost estimate for pipeline networks necessary to transport a significant portion of the CO -LCB- sub 2 -RCB- to potentially feasible disposal locations.

Dr. Romm helped lead the administration's climate technology policy formulation, and initiated, supervised, and publicized a comprehensive technical analysis by five national laboratories of how energy technologies can reduce greenhouse gas emissions at low - cost: Scenarios of U.S. Carbon Reductions.

Warm gas cleanup may be used in the economic analysis to demonstrate integrated technology value.

The preceding analysis of the two huge «wind farms» recently announced in Texas demonstrate clearly that wind energy is a niche technology that will do little to offset the need for the people of the United States to depend on coal, natural gas, oil, nuclear energy and hydropower for their electricity for years to come.

The third volume of the report presents an analysis of costs, policies and technologies that could be used to limit and / or prevent emissions of greenhouse gases, along with a range of activities to remove these gases from the atmosphere.

This chapter addresses the energy - supply sector and analyses the cost and potential of greenhouse gas (GHG) mitigation from the uptake of low - and zero - carbon - emitting technologies (including carbon capture and storage) over the course of the next two to three decades.

14, 1990, p. 323; 210.2 in Changing by Degrees, U.S. Congress, Office of Technology Assessment, February 1991, p. 333; 205.6 for bituminous coal in Greenhouse Gases, Abatement and Control, IEA Coal Research, June 1991, p. 24; and 183.4 in Limiting Net Greenhouse Gas Emissions in the United States (Executive Summary), U.S. Department of Energy, Office of Environmental Analysis, September 1991, p. 37.

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