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Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
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1

Shale gas is natural gas trapped inside  

Office of Energy Efficiency and Renewable Energy (EERE) Indexed Site

Shale gas is natural gas trapped inside formations of shale - fine grained sedimentary rocks that can be rich sources of petroleum and natural gas. Just a few years ago, much of...

2

Natural Gas from Shale: Questions and Answers | Department of...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Shale: Questions and Answers Natural Gas from Shale: Questions and Answers Natural Gas from Shale: Questions and Answers More Documents & Publications Shale Gas Development...

3

NATURAL GAS FROM SHALE: Questions and Answers  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Where is shale gas found Where is shale gas found in the United States? Shale gas is located in many parts of the United States. These deposits occur in shale "plays" - a set of discovered, undiscovered or possible natural gas accumulations that exhibit similar geological characteristics. Shale plays are located within large-scale basins or accumulations of sedimentary rocks, often hundreds of miles across, that also may contain other oil and gas resources. 1 Shale gas production is currently occurring in 16 states. 1 U.S. Government Accountability Office, Report to Congressional Requesters, "Oil and Gas: Information on Shale Resources, Development, and

4

Natural Gas from Shale  

Energy.gov (U.S. Department of Energy (DOE))

Office of Fossil Energy research helped refine cost-effective horizontal drilling and hydraulic fracturing technologies, protective environmental practices and data development, making hundreds of trillions of cubic feet of gas technically recoverable where they once were not.

5

NATURAL GAS FROM SHALE: Questions and Answers  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

is shale gas? is shale gas? Basically, it is natural gas - primarily methane - found in shale formations, some of which were formed 300-million-to-400-million years ago during the Devonian period of Earth's history. The shales were deposited as fine silt and clay particles at the bottom of relatively enclosed bodies of water. At roughly the same time, primitive plants were forming forests on land and the first amphibians were making an appearance. Some of the methane that formed from the organic matter buried with the sediments escaped into sandy rock layers adjacent to the shales, forming conventional accumulations of natural gas which are relatively easy to extract. But some of it remained locked in the tight, low permeability shale layers, becoming shale gas.

6

California--onshore Natural Gas Gross Withdrawals from Shale...  

U.S. Energy Information Administration (EIA) Indexed Site

onshore Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet) California--onshore Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet) Decade Year-0 Year-1...

7

NATURAL GAS FROM SHALE: Questions and Answers  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Representation of common equipment at a natural gas hydraulic fracturing drill pad. Representation of common equipment at a natural gas hydraulic fracturing drill pad. How is Shale Gas Produced? Shale gas formations are "unconventional" reservoirs - i.e., reservoirs of low "permeability." Permeability refers to the capacity of a porous, sediment, soil - or rock in this case - to transmit a fluid. This contrasts with a "conventional" gas reservoir produced from sands and carbonates (such as limestone). The bottom line is that in a conventional reservoir, the gas is in interconnected pore spaces, much like a kitchen sponge, that allow easier flow to a well; but in an unconventional reservoir, like shale, the reservoir must be mechanically "stimulated" to

8

NATURAL GAS FROM SHALE: Questions and Answers Shale Gas Glossary  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Glossary Glossary Acquifer - A single underground geological formation, or group of formations, containing water. Antrim Shale - A shale deposit located in the northern Michigan basin that is a Devonian age rock formation lying at a relatively shallow depth of 1,000 feet. Gas has been produced from this formation for several decades primarily via vertical, rather than horizontal, wells. The Energy Information Administration (EIA) estimates the technically recoverable Antrim shale resource at 20 trillion cubic feet (tcf). Appalachian Basin - The geological formations that roughly follow the Appalachian Mountain range and contain

9

NETL: Shale Gas and Other Natural Gas Projects  

NLE Websites -- All DOE Office Websites (Extended Search)

Natural Gas Resources Natural Gas Resources Natural Gas Resources Shale Gas | Environmental | Other Natural Gas Related Resources | Completed NG Projects Project Number Project Name Primary Performer 10122-47 Predicting higher-than-average permeability zones in tight-gas sands, Piceance basin: An integrated structural and stratigraphic analysis Colorado School of Mines 10122-43 Diagnosis of Multi-Stage Fracturing in Horizontal Well by Downhole Temperature Measurement for Unconventional Oil and Gas Wells Texas A&M University 10122-42 A Geomechanical Analysis of Gas Shale Fracturing and Its Containment Texas A&M University 09122-02 Characterizing Stimulation Domains, for Improved Well Completions in Gas Shales Higgs-Palmer Technologies 09122-04 Marcellus Gas Shale Project Gas Technology Institute (GTI)

10

Life-cycle analysis of shale gas and natural gas.  

SciTech Connect

The technologies and practices that have enabled the recent boom in shale gas production have also brought attention to the environmental impacts of its use. Using the current state of knowledge of the recovery, processing, and distribution of shale gas and conventional natural gas, we have estimated up-to-date, life-cycle greenhouse gas emissions. In addition, we have developed distribution functions for key parameters in each pathway to examine uncertainty and identify data gaps - such as methane emissions from shale gas well completions and conventional natural gas liquid unloadings - that need to be addressed further. Our base case results show that shale gas life-cycle emissions are 6% lower than those of conventional natural gas. However, the range in values for shale and conventional gas overlap, so there is a statistical uncertainty regarding whether shale gas emissions are indeed lower than conventional gas emissions. This life-cycle analysis provides insight into the critical stages in the natural gas industry where emissions occur and where opportunities exist to reduce the greenhouse gas footprint of natural gas.

Clark, C.E.; Han, J.; Burnham, A.; Dunn, J.B.; Wang, M. (Energy Systems); ( EVS)

2012-01-27T23:59:59.000Z

11

Natural catalytic activity in a marine shale for generating natural gas  

Science Journals Connector (OSTI)

...natural catalytic activity in marine shales. Gas is generated at ambient temperatures...differences are in degree. Mowry shale generates gas compositions that are quite different...probably a major source of natural gas. Mowry shale generates gas at thermodynamic...

2010-01-01T23:59:59.000Z

12

Producing Natural Gas From Shale | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Producing Natural Gas From Shale Producing Natural Gas From Shale Producing Natural Gas From Shale January 26, 2012 - 12:00pm Addthis The Office of Fossil Energy sponsored early research that refined more cost-effective and innovative production technologies for U.S. shale gas production -- such as directional drilling. By 2035, EIA projects that shale gas production will rise to 13.6 trillion cubic feet, representing nearly half of all U.S. natural gas production. | Image courtesy of the Office of Fossil Energy. The Office of Fossil Energy sponsored early research that refined more cost-effective and innovative production technologies for U.S. shale gas production -- such as directional drilling. By 2035, EIA projects that shale gas production will rise to 13.6 trillion cubic feet, representing

13

NATURAL GAS FROM SHALE: Questions and Answers Why is Shale Gas Important?  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Why is Shale Gas Important? Why is Shale Gas Important? With the advance of extraction technology, shale gas production has led to a new abundance of natural gas supply in the United States over the past decade, and is expected to continue to do so for the foreseeable future. According to the Energy Information Administration (EIA), the unproved technically recoverable U.S. shale gas resource is estimated at 482 trillion cubic feet. 1 Estimated proved and unproved shale gas resources amount to a combined 542 trillion cubic feet (or 25 percent) out of a total U.S. resource of 2,203 trillion cubic feet. 2 U.S. shale gas production has increased 12-fold over the last

14

NATURAL GAS FROM SHALE: Questions and Answers  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Challenges are Associated with Challenges are Associated with Shale Gas Production? Developing any energy resource - whether conventional or non-conventional like shale - carries with it the possibility and risk of environmental, public health, and safety issues. Some of the challenges related to shale gas production and hydraulic fracturing include: * Increased consumption of fresh water (volume and sources); * Induced seismicity (earthquakes) from shale flowback water disposal;Chemical disclosure of fracture fluid additives; * Potential ground and surface water contamination; * Air quality impacts; * Local impacts, such as the volume of truck traffic, noise, dust and land disturbance.

15

The U.S. Natural Gas and Shale Production Outlook  

NLE Websites -- All DOE Office Websites (Extended Search)

Natural Gas and Shale Production Outlook for North American Gas Forum September 29, 2014 by Adam Sieminski, Administrator The U.S. has experienced a rapid increase in natural gas...

16

Economic viability of shale gas production in the Marcellus Shale; indicated by production rates, costs and current natural gas prices.  

E-Print Network (OSTI)

?? The U.S. natural gas industry has changed because of the recent ability to produce natural gas from unconventional shale deposits. One of the largest… (more)

Duman, Ryan J.

2012-01-01T23:59:59.000Z

17

What is shale gas? | Department of Energy  

Office of Environmental Management (EM)

What is shale gas? What is shale gas? What is shale gas? More Documents & Publications Natural Gas from Shale: Questions and Answers Shale Gas Glossary How is shale gas produced?...

18

Shale Gas Glossary | Department of Energy  

Office of Environmental Management (EM)

Glossary Shale Gas Glossary Shale Gas Glossary More Documents & Publications Natural Gas from Shale: Questions and Answers Modern Shale Gas Development in the United States: A...

19

Why is shale gas important? | Department of Energy  

Office of Environmental Management (EM)

Why is shale gas important? Why is shale gas important? More Documents & Publications Natural Gas from Shale: Questions and Answers Shale Gas Glossary How is shale gas...

20

How is shale gas produced? | Department of Energy  

Office of Environmental Management (EM)

How is shale gas produced? How is shale gas produced? How is shale gas produced? More Documents & Publications Natural Gas from Shale: Questions and Answers Shale Gas Glossary...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


21

Natural catalytic activity in a marine shale for generating natural gas  

Science Journals Connector (OSTI)

...in a marine shale for generating natural gas Frank D. Mango 1 * Daniel M...be the source of equilibrium in natural gas habitats and in marine shales...palaeoactivity|low-temperature gas|natural gas| 1. Introduction It is broadly...

2010-01-01T23:59:59.000Z

22

NATURAL GAS FROM SHALE: Questions and Answers Shale Gas Development Challenges -  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Air Air Key Points: * Air quality risks from shale oil and gas development are generally the result of: (1) dust and engine exhaust from increased truck traffic; (2) emissions from diesel-powered pumps used to power equipment; (3) intentional flaring or venting of gas for operational reasons; and, (4) unintentional emissions of pollutants from faulty equipment or impoundments. 1 * Natural gas is efficient and clean compared to other fossil fuels, emitting less nitrogen oxide and sulfur dioxide than coal and oil, no mercury and very few particulates. However, the drilling

23

Methane and the greenhouse-gas footprint of natural gas from shale formations  

Science Journals Connector (OSTI)

We evaluate the greenhouse gas footprint of natural gas obtained by high-volume hydraulic fracturing from shale formations, focusing on methane emissions. Natural gas is composed largely of methane, and 3 ... to ...

Robert W. Howarth; Renee Santoro; Anthony Ingraffea

2011-06-01T23:59:59.000Z

24

Shale gas - what happened? | Department of Energy  

Office of Environmental Management (EM)

seems like shale gas came out of nowhere - what happened? More Documents & Publications Natural Gas from Shale: Questions and Answers Natural Gas from Shale Challenges associated...

25

NATURAL GAS FROM SHALE: Questions and Answers Shale Gas Development Challenges -  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Fracture Fluids Fracture Fluids Key Points: * Shale fracture fluid, or "slickwater," is largely composed of water (99%); but a number of additives are mixed in with it to increase the effectiveness of the fracturing operation. These additives vary as a function of the well type and the preferences of the operator. * Hydraulic fracturing fluids can contain hazardous chemicals and, if mismanaged, spills could leak harmful substances into ground or surface water. However, good field practice, governed by existing regulations, "should provide an adequate level of protection" from fracturing fluid risks. 1 1 Massachusetts Institute of Technology, "MIT Study on the Future of Natural Gas," June 6, 2011, Chapter 2: Supply, page 41.

26

Shale Gas Development Challenges: Fracture Fluids | Department...  

Office of Environmental Management (EM)

Fluids Shale Gas Development Challenges: Fracture Fluids More Documents & Publications Natural Gas from Shale: Questions and Answers Shale Gas Glossary FracFocus 2.0 Task Force...

27

Shale Gas Development Challenges: Surface Impacts | Department...  

Office of Environmental Management (EM)

Impacts Shale Gas Development Challenges: Surface Impacts More Documents & Publications Natural Gas from Shale: Questions and Answers Challenges associated with shale gas...

28

Challenges associated with shale gas production | Department...  

Office of Environmental Management (EM)

What challenges are associated with shale gas production? More Documents & Publications Natural Gas from Shale: Questions and Answers Shale Gas Development Challenges: Air...

29

Shale Gas Development Challenges: Earthquakes | Department of...  

Office of Environmental Management (EM)

Shale Gas Development Challenges: Induced Seismic Events More Documents & Publications Natural Gas from Shale: Questions and Answers Challenges associated with shale gas...

30

NATURAL GAS FROM SHALE: Questions and Answers It Seems Like Shale Gas Came Out  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

It Seems Like Shale Gas Came Out It Seems Like Shale Gas Came Out of Nowhere - What Happened? Knowledge of gas shale resources and even production techniques has been around a long time (see "Technological Highlights" timeline). But even as recently as a few years ago, very little of the resource was considered economical to produce. Innovative advances - especially in horizontal drilling, hydraulic fracturing and other well stimulation technologies - did much to make hundreds of trillions of cubic feet of shale gas technically recoverable where it once was not. The U.S. Department of Energy's (DOE) Office of Fossil Energy, along with industry partners, was heavily involved in the innovation chain, and helped to make some of these techniques, as well as protective

31

Natural gas from shale formation – The evolution, evidences and challenges of shale gas revolution in United States  

Science Journals Connector (OSTI)

Abstract Extraction of natural gas from shale rock in the United States (US) is one of the landmark events in the 21st century. The combination of horizontal drilling and hydraulic fracturing can extract huge quantities of natural gas from impermeable shale formations, which were previously thought to be either impossible or uneconomic to produce. This review offers a comprehensive insight into US shale gas opportunities, appraising the evolution, evidence and the challenges of shale gas production in the US. The history of US shale gas in this article is divided into three periods and based on the change of oil price (i.e., the period before the 1970s oil crisis, the period from 1970s to 2000, and the period since 2000), the US has moved from being one of the world's biggest importers of gas to being self-sufficient in less than a decade, with the shale gas production increasing 12-fold (from 2000 to 2010). The US domestic natural gas price hit a 10-year low in 2012. The US domestic natural gas price in the first half of 2012 was about $2 per million British Thermal Unit (BTU), compared with Brent crude, the world benchmark price for oil, now about $ 80–100/barrel, or $14–17 per million BTU. Partly due to an increase in gas-fired power generation in response to low gas prices, US carbon emissions from fossil-fuel combustion fell by 430 million ton CO2 – more than any other country – between 2006 and 2011. Shale gas also stimulated economic growth, creating 600,000 new jobs in the US by 2010. However, the US shale gas revolution would be curbed, if the environmental risks posed by hydraulic fracturing are not managed effectively. The hydraulic fracturing is water intensive, and can cause pollution in the marine environment, with implications for long-term environmental sustainability in several ways. Also, large amounts of methane, a powerful greenhouse gas, can be emitted during the shale gas exploration and production. Hydraulic fracturing also may induce earthquakes. These environmental risks need to be managed by good practices which is not being applied by all the producers in all the locations. Enforcing stronger regulations are necessary to minimize risk to the environment and on human health. Robust regulatory oversight can however increase the cost of extraction, but stringent regulations can foster an historic opportunity to provide cheaper and cleaner gas to meet the consumer demand, as well as to usher in the future growth of the industry.

Qiang Wang; Xi Chen; Awadhesh N. Jha; Howard Rogers

2014-01-01T23:59:59.000Z

32

NATURAL GAS FROM SHALE: Questions and Answers Shale Gas Development Challenges -  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Surface Impacts Surface Impacts (non-water) Key Points: * There are many local economic and energy benefits from shale gas development; there is also an inherent risk of increased traffic or other habitat disturbances that could affect residents, agriculture, farming, fishing and hunting. 1 * Shale gas development can lead to socio-economic impacts and can increase demands on local infrastructure, traffic, labor force, education, medical and other services. 2 Federal and state laws are designed to mitigate the impact of these challenges. * The rapid expansion of shale gas development and hydraulic fracturing has increased attention on potential effects on human health, the environment and local wildlife habitat. Vegetation and soils are disturbed where gas wells require new roads, clearing and leveling.

33

Marcellus Shale Natural Gas Drilling Operators' Choice of Wastewater Disposal Method.  

E-Print Network (OSTI)

??As natural gas drilling in the Marcellus Shale region moves forward, the issue of wastewater disposal has risen to the forefront. In 2010, the Pennsylvania… (more)

Edmundson, Caitlyn

2012-01-01T23:59:59.000Z

34

Shale-gas scheduling for natural-gas supply in electric power production  

Science Journals Connector (OSTI)

Abstract This paper describes a novel integration of shale-gas supply in geographical proximity to natural-gas power production. Shale-gas reservoirs hold special properties that make them particularly suited for intermittent shut-in based production schemes. The proposed scheme argues that shale-gas reservoirs can be used to shift storage of gas used for meeting varying demands, from separate underground storage units operated by local distribution companies to the gas producers themselves. Based on this property, we present an economical attractive option for generating companies to increase their use of firm gas–supply contracts to the natural-gas power plants in order to secure a sufficient gas supply. The shale-well scheduling is formulated as profit-maximization model for well operators, in which we seek to include their main operational challenges, while preserving an economic incentive for the operators to adopt the proposed scheme. The resulting large-scale mixed integer linear program is solved by a Lagrangian relaxation scheme, with a receding horizon strategy implemented to handle operational uncertainties. We present the proposed optimization framework by illustrative case studies. The numerical results show a significant economic potential for the shale-well operators, and a viable approach for generating companies to secure a firm gas supply for meeting varying seasonal electricity demands.

Brage Rugstad Knudsen; Curtis H. Whitson; Bjarne Foss

2014-01-01T23:59:59.000Z

35

Shale Gas R&D  

Energy.gov (U.S. Department of Energy (DOE))

Natural gas from shales has the potential to significantly increase America’s security of energy supply, reduce greenhouse gas emissions, and lower prices for consumers. Although shale gas has been...

36

Table 4. Principal shale gas plays: natural gas production and proved reserves,  

U.S. Energy Information Administration (EIA) Indexed Site

Principal shale gas plays: natural gas production and proved reserves, 2010-2011" Principal shale gas plays: natural gas production and proved reserves, 2010-2011" "trillion cubic feet" ,,, 2010,, 2011,," Change 2011-2010" "Basin","Shale Play","State(s)","Production","Reserves","Production","Reserves","Production","Reserves" "Fort Worth","Barnett","TX",1.9,31,2,32.6,0.1,1.6 "Appalachian","Marcellus","PA, WV, KY, TN, NY, OH",0.5,13.2,1.4,31.9,0.9,18.7 "Texas-Louisiana Salt","Haynesville/Bossier","TX, LA",1.5,24.5,2.5,29.5,1,5 "Arkoma","Fayetteville","AR",0.8,12.5,0.9,14.8,0.1,2.3

37

NATURAL GAS FROM SHALE: Questions and Answers Shale Gas Development Challenges -  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Induced Seismic Events Induced Seismic Events (Earthquakes) Key Points: * Induced seismic events are earthquakes attributable to human activity. The possibility of induced seismic activity related to energy development projects, including shale gas, has drawn some public attention. * Although hydraulic fracturing releases energy deep beneath the surface to break rock, studies thus far indicate the energy released is generally not large enough to trigger a seismic event that could be felt on the surface. 1 * However, waste fluid disposal through underground injection can "pose some risk for induced seismicity." 2 * According to the National Academies of Sciences (NAS), accurately predicting seismic event magnitude or occurrence is not possible, in part because of a lack of comprehensive data on

38

EA-0531: Proposed Natural Gas Protection Program for Naval Oil Shale  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

31: Proposed Natural Gas Protection Program for Naval Oil 31: Proposed Natural Gas Protection Program for Naval Oil Shale Reserves Nos. 1 and 3, Garfield County, Colorado EA-0531: Proposed Natural Gas Protection Program for Naval Oil Shale Reserves Nos. 1 and 3, Garfield County, Colorado SUMMARY This EA evaluates the environmental impacts of a proposal for a Natural Gas Protection Program for Naval Oil Shale Reserves Nos. 1 and 3 which would be implemented over a five-year period that would encompass a total of 200 wells in Garfield County, Colorado. PUBLIC COMMENT OPPORTUNITIES None available at this time. DOCUMENTS AVAILABLE FOR DOWNLOAD August 9, 1991 EA-0531: Final Environmental Assessment Proposed Natural Gas Protection Program for Naval Oil Shale Reserves Nos. 1 and 3 August 9, 1991 EA-0531: Finding of No Significant Impact

39

EIA responds to Nature article on shale gas projections  

Annual Energy Outlook 2012 (EIA)

Crude oil, gasoline, heating oil, diesel, propane, and other liquids including biofuels and natural gas liquids. Natural Gas Exploration and reserves, storage, imports and...

40

Shale Gas Development Challenges: Water | Department of Energy  

Office of Environmental Management (EM)

Challenges: Water Shale Gas Development Challenges: Water More Documents & Publications Natural Gas from Shale: Questions and Answers Shale Gas Development Challenges: Fracture...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


41

Shale Gas Development Challenges: Air | Department of Energy  

Office of Environmental Management (EM)

Challenges: Air Shale Gas Development Challenges: Air More Documents & Publications Natural Gas from Shale: Questions and Answers Challenges associated with shale gas...

42

,"Kentucky Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Monthly","9/2013" Monthly","9/2013" ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","ngm_epg0_fgs_sky_mmcfm.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/ngm_epg0_fgs_sky_mmcfm.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/19/2013 6:59:25 AM" "Back to Contents","Data 1: Kentucky Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)" "Sourcekey","NGM_EPG0_FGS_SKY_MMCF" "Date","Kentucky Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"

43

,"South Dakota Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Monthly","9/2013" Monthly","9/2013" ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","ngm_epg0_fgs_ssd_mmcfm.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/ngm_epg0_fgs_ssd_mmcfm.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/19/2013 6:59:32 AM" "Back to Contents","Data 1: South Dakota Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)" "Sourcekey","NGM_EPG0_FGS_SSD_MMCF" "Date","South Dakota Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"

44

,"South Dakota Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Annual",2012 Annual",2012 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","ngm_epg0_fgs_ssd_mmcfa.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/ngm_epg0_fgs_ssd_mmcfa.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/19/2013 6:59:32 AM" "Back to Contents","Data 1: South Dakota Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)" "Sourcekey","NGM_EPG0_FGS_SSD_MMCF" "Date","South Dakota Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"

45

,"Kentucky Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"  

U.S. Energy Information Administration (EIA) Indexed Site

Annual",2012 Annual",2012 ,"Release Date:","12/12/2013" ,"Next Release Date:","1/7/2014" ,"Excel File Name:","ngm_epg0_fgs_sky_mmcfa.xls" ,"Available from Web Page:","http://tonto.eia.gov/dnav/ng/hist/ngm_epg0_fgs_sky_mmcfa.htm" ,"Source:","Energy Information Administration" ,"For Help, Contact:","infoctr@eia.doe.gov" ,,"(202) 586-8800",,,"12/19/2013 6:59:25 AM" "Back to Contents","Data 1: Kentucky Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)" "Sourcekey","NGM_EPG0_FGS_SKY_MMCF" "Date","Kentucky Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)"

46

Table 4. Principal shale gas plays: natural gas production and proved reserves, 2010-1011  

U.S. Energy Information Administration (EIA) Indexed Site

Principal shale gas plays: natural gas production and proved reserves, 2010-2011 Principal shale gas plays: natural gas production and proved reserves, 2010-2011 trillion cubic feet Basin Shale Play State(s) Production Reserves Production Reserves Production Reserves Fort Worth Barnett TX 1.9 31.0 2.0 32.6 0.1 1.6 Appalachian Marcellus PA, WV, KY, TN, NY, OH 0.5 13.2 1.4 31.9 0.9 18.7 Texas-Louisiana Salt Haynesville/Bossier TX, LA 1.5 24.5 2.5 29.5 1.0 5.0 Arkoma Fayetteville AR 0.8 12.5 0.9 14.8 0.1 2.3 Anadarko Woodford TX, OK 0.4 9.7 0.5 10.8 0.1 1.1 Western Gulf Eagle Ford TX 0.1 2.5 0.4 8.4 0.3 5.9 Sub-total 5.2 93.4 7.7 128.0 2.5 34.6 Other shale gas plays 0.2 4.0 0.3 3.6 0.1 -0.4 All U.S. Shale Plays 5.4 97.4 8.0 131.6 2.6 34.2 Change 2011-2010 2010 2011 Notes: Some columns may not add up to its subtotal because of independent rounding. Natural gas is wet after lease separation. The above table is

47

Table 15: Shale natural gas proved reserves, reserves changes, and production, w  

U.S. Energy Information Administration (EIA) Indexed Site

: Shale natural gas proved reserves, reserves changes, and production, wet after lease separation, 2011" : Shale natural gas proved reserves, reserves changes, and production, wet after lease separation, 2011" "billion cubic feet" ,,"Changes in Reserves During 2011" ,"Published",,,,,,,,"New Reservoir" ,"Proved",,"Revision","Revision",,,,"New Field","Discoveries","Estimated","Proved" ,"Reserves","Adjustments","Increases","Decreases","Sales","Acquisitions","Extensions","Discoveries","in Old Fields","Production","Reserves" "State and Subdivision",40543,"(+,-)","(+)","(-)","(-)","(+)","(+)","(+)","(+)","(-)",40908

48

Speaker to Address Impact of Natural Gas Production on Greenhouse Gas Emissions When used for power generation, Marcellus Shale natural gas can significantly reduce carbon  

E-Print Network (OSTI)

generation, Marcellus Shale natural gas can significantly reduce carbon dioxide emissions, but questions have, that using natural gas for electricity generation is better than coal for the long-term healthSpeaker to Address Impact of Natural Gas Production on Greenhouse Gas Emissions When used for power

Boyer, Elizabeth W.

49

Shale Gas Development: A Smart Regulation Framework  

Science Journals Connector (OSTI)

Shale Gas Development: A Smart Regulation Framework ... Mandatory reporting of greenhouse gases: Petroleum and natural gas systems; Final rule. ...

Katherine E. Konschnik; Mark K. Boling

2014-02-24T23:59:59.000Z

50

A study of natural gas extraction in Marcellus shale  

E-Print Network (OSTI)

With the dramatic increases in crude oil prices there has been a need to find reliable energy substitutions. One substitution that has been used in the United States is natural gas. However, with the increased use of natural ...

Boswell, Zachary (Zachary Karol)

2011-01-01T23:59:59.000Z

51

Shale Gas and Hydrofracturing  

Science Journals Connector (OSTI)

Advances in horizontal drilling technology and hydrofracturing allow natural gas to escape from shale formations following high pressure treatment, i.e. “fracking” with sand, water and chemicals. ... With fracking, natural gas prices have remained low at less than $2.50 per million BTU. ... Fracking chemicals, petrochemicals, and metals and radionuclides from source rock cause major environmental burdens if not properly treated or deep-injected. ...

Jerald L. Schnoor

2012-04-05T23:59:59.000Z

52

Other States Natural Gas Gross Withdrawals from Shale Gas (Million Cubic  

Gasoline and Diesel Fuel Update (EIA)

Shale Gas (Million Cubic Feet) Shale Gas (Million Cubic Feet) Other States Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet) Year Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec 2007 48,369 43,688 48,369 46,808 48,369 46,808 48,369 48,369 46,808 48,369 46,808 48,369 2008 67,432 63,082 67,432 65,257 67,432 65,257 67,432 67,432 65,257 67,432 65,257 67,432 2009 97,401 87,975 97,401 94,259 97,401 94,259 97,401 97,401 94,259 97,401 94,259 97,401 2010 120,583 110,275 123,021 136,059 141,911 138,726 158,338 161,005 157,181 182,320 175,525 183,023 2011 199,632 182,762 204,041 213,258 221,592 221,224 238,708 246,625 241,304 278,250 269,872 281,981 2012 294,346 270,695 293,738 302,393 313,343 303,156 332,473 336,825 327,725 366,985 354,759 366,520

53

Production Optimization in Shale Gas Reservoirs.  

E-Print Network (OSTI)

?? Natural gas from organic rich shales has become an important part of the supply of natural gas in the United States. Modern drilling and… (more)

Knudsen, Brage Rugstad

2010-01-01T23:59:59.000Z

54

Natural Gas Plays in the Marcellus Shale: Challenges and Potential Opportunities  

Science Journals Connector (OSTI)

Seismic surveys have been used to produce 3-D images of the subsurface (Figure 2) including images of very productive natural shale gas reservoirs. ... Recently, about 12 ML (3 million gal) of treated AMD was obtained from the Blue Valley Fish Culture Station and used in a Marcellus completion hydrofracture process (29). ...

David M. Kargbo; Ron G. Wilhelm; David J. Campbell

2010-06-02T23:59:59.000Z

55

Life Cycle Water Consumption for Shale Gas and Conventional Natural Gas  

Science Journals Connector (OSTI)

The average shale gas well EUR is 100 million cubic meters (3.5 billion cubic feet (BCF)) for bulk gas, which is a mixture containing methane, in addition to other gases such as ethane, propane, carbon dioxide, and nitrogen. ... Overbey, W. K.; Carden, R. S.; Locke, C. D.; Salamy, S. P.; Reeves, T. K.; Johnson, H. R.; Site Selection, Drilling, and Completion of Two Horizontal Wells in the Devonian Shales of West Virginia, DOE/MC/25115–3116; Prepared for U.S. Department of Energy, 1992. ...

Corrie E. Clark; Robert M. Horner; Christopher B. Harto

2013-09-04T23:59:59.000Z

56

Table 14: Shale natural gas proved reserves and production, 2008 - 2011  

U.S. Energy Information Administration (EIA) Indexed Site

: Shale natural gas proved reserves and production, 2008 - 2011" : Shale natural gas proved reserves and production, 2008 - 2011" "billion cubic feet" ,,"Reserves",,,,,"Production" "State and Subdivision",,2008,2009,2010,2011,,2008,2009,2010,2011 "Alaska",,0,0,0,0,,0,0,0,0 "Lower 48 States",,34428,60644,97449,131616,,2116,3110,5336,7994 "Alabama",,2,0,0,0,,0,0,0,0 "Arkansas",,3833,9070,12526,14808,,279,527,794,940 "California",,0,0,0,855,,0,0,0,101 "Colorado",,0,4,4,10,,0,1,1,3 "Florida",,0,0,0,0,,0,0,0,0 "Kansas",,0,0,0,0,,0,0,0,0 "Kentucky",,20,55,10,41,,2,5,4,4 "Louisiana",,858,9307,20070,21950,,23,293,1232,2084 " North",,858,9307,20070,21950,,23,293,1232,2084 " South",,0,0,0,0,,0,0,0,0

57

Evaluation of naturally fractured gas shale production utilizing multiwell transient tests: A field study  

SciTech Connect

A series of multiple well transient tests were conducted in a Devonian shale gas field in Meigs County, Ohio. Production parameters were quantified and it was determined that the reservoir is highly anisotropic, which is a significant factor in calculating half-fracture length from pressure transient data. Three stimulation treatments, including conventional explosive shooting, nitrogen foam frac, and high energy gas frac (HEGF), were compared on the basis of overall effectiveness and performance. Based on the evaluation of results, the nitrogen foam frac provided the most improved productivity. The study provided new type curves and analytical solutions for the mathematical representation of naturally fractured reservoirs and confirmed that the shale reservoir in Meigs County can be modeled as a dual porosity system using pseudosteady-state gas transfer from the matrix to the fracture system.

Chen, C.C.; Alam, J.; Blanton, T.L.; Vozniak, J.P.

1984-05-01T23:59:59.000Z

58

,"Missouri Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

Gas Wells (MMcf)","Missouri Natural Gas Gross Withdrawals from Oil Wells (MMcf)","Missouri Natural Gas Gross Withdrawals from Shale Gas (Million Cubic Feet)","Missouri Natural...

59

What is shale gas and why is it important?  

Reports and Publications (EIA)

Shale gas refers to natural gas that is trapped within shale formations. Shales are fine-grained sedimentary rocks that can be rich sources of petroleum and natural gas. Over the past decade, the combination of horizontal drilling and hydraulic fracturing has allowed access to large volumes of shale gas that were previously uneconomical to produce. The production of natural gas from shale formations has rejuvenated the natural gas industry in the United States.

2012-01-01T23:59:59.000Z

60

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Proposed carbon management technologies include geologic sequestration of CO{sub 2}. A possible, but untested, strategy is to inject CO{sub 2} into organic-rich shales of Devonian age. Devonian black shales underlie approximately two-thirds of Kentucky and are generally thicker and deeper in the Illinois and Appalachian Basin portions of Kentucky. The Devonian black shales serve as both the source and trap for large quantities of natural gas; total gas in place for the shales in Kentucky is estimated to be between 63 and 112 trillion cubic feet. Most of this natural gas is adsorbed on clay and kerogen surfaces, analogous to the way methane is stored in coal beds. In coals, it has been demonstrated that CO{sub 2} is preferentially adsorbed, displacing methane at a ratio of two to one. Black shales may similarly desorb methane in the presence of CO{sub 2}. If black shales similarly desorb methane in the presence of CO{sub 2}, the shales may be an excellent sink for CO{sub 2} with the added benefit of serving to enhance natural gas production. The concept that black, organic-rich Devonian shales could serve as a significant geologic sink for CO{sub 2} is the subject this research. To accomplish this investigation, drill cuttings and cores will be selected from the Kentucky Geological Survey Well Sample and Core Library. CO{sub 2} adsorption analyses will be performed in order to determine the gas-storage potential of the shale and to identify shale facies with the most sequestration potential. In addition, new drill cuttings and sidewall core samples will be acquired to investigate specific black-shale facies, their uptake of CO{sub 2}, and the resultant displacement of methane. Advanced logging techniques (elemental capture spectroscopy) will be used to investigate possible correlations between adsorption capacity and geophysical log measurements.

Brandon C. Nuttall

2003-02-10T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


61

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Proposed carbon management technologies include geologic sequestration of CO{sub 2}. A possible, but untested, strategy is to inject CO{sub 2} into organic-rich shales of Devonian age. Devonian black shales underlie approximately two-thirds of Kentucky and are generally thicker and deeper in the Illinois and Appalachian Basin portions of Kentucky. The Devonian black shales serve as both the source and trap for large quantities of natural gas; total gas in place for the shales in Kentucky is estimated to be between 63 and 112 trillion cubic feet. Most of this natural gas is adsorbed on clay and kerogen surfaces, analogous to the way methane is stored in coal beds. In coals, it has been demonstrated that CO{sub 2} is preferentially adsorbed, displacing methane at a ratio of two to one. Black shales may similarly desorb methane in the presence of CO{sub 2}. If black shales similarly desorb methane in the presence of CO{sub 2}, the shales may be an excellent sink for CO{sub 2} with the added benefit of serving to enhance natural gas production. The concept that black, organic-rich Devonian shales could serve as a significant geologic sink for CO{sub 2} is the subject this research. To accomplish this investigation, drill cuttings and cores will be selected from the Kentucky Geological Survey Well Sample and Core Library. CO{sub 2} adsorption analyses will be performed in order to determine the gas-storage potential of the shale and to identify shale facies with the most sequestration potential. In addition, new drill cuttings and sidewall core samples will be acquired to investigate specific black-shale facies, their uptake of CO{sub 2}, and the resultant displacement of methane. Advanced logging techniques (elemental capture spectroscopy) will be used to investigate possible correlations between adsorption capacity and geophysical log measurements.

Brandon C. Nuttall

2003-04-28T23:59:59.000Z

62

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Proposed carbon management technologies include geologic sequestration of CO{sub 2}. A possible, but untested, strategy is to inject CO{sub 2} into organic-rich shales of Devonian age. Devonian black shales underlie approximately two-thirds of Kentucky and are generally thicker and deeper in the Illinois and Appalachian Basin portions of Kentucky. The Devonian black shales serve as both the source and trap for large quantities of natural gas; total gas in place for the shales in Kentucky is estimated to be between 63 and 112 trillion cubic feet. Most of this natural gas is adsorbed on clay and kerogen surfaces, analogous to the way methane is stored in coal beds. In coals, it has been demonstrated that CO{sub 2} is preferentially adsorbed, displacing methane at a ratio of two to one. Black shales may similarly desorb methane in the presence of CO{sub 2}. If black shales similarly desorb methane in the presence of CO{sub 2}, the shales may be an excellent sink for CO{sub 2} with the added benefit of serving to enhance natural gas production. The concept that black, organic-rich Devonian shales could serve as a significant geologic sink for CO{sub 2} is the subject this research. To accomplish this investigation, drill cuttings and cores will be selected from the Kentucky Geological Survey Well Sample and Core Library. CO{sub 2} adsorption analyses will be performed in order to determine the gas-storage potential of the shale and to identify shale facies with the most sequestration potential. In addition, new drill cuttings and sidewall core samples will be acquired to investigate specific black-shale facies, their uptake of CO{sub 2}, and the resultant displacement of methane. Advanced logging techniques (elemental capture spectroscopy) will be used to investigate possible correlations between adsorption capacity and geophysical log measurements.

Brandon C. Nuttall

2003-02-11T23:59:59.000Z

63

Shale Gas 101  

Energy.gov (U.S. Department of Energy (DOE))

This webpage has been developed to answer the many questions that people have about shale gas and hydraulic fracturing (or fracking). The information provided below explains the basics, including what shale gas is, where it’s found, why it’s important, how it’s produced, and challenges associated with production.

64

The presence of natural gas-primarily methane-in the shale layers...  

NLE Websites -- All DOE Office Websites (Extended Search)

rigorous reservoir characterization, horizontal drilling, and lower cost approaches to hydraulic fracturing to make the Barnett Shale economic. 2005 to 2010 - Gas production...

65

Natural gas potential of the New Albany shale group (Devonian-Mississippian) in southeastern Illinois  

SciTech Connect

Data from geologic and geochemical studies of the New Albany shale group indicate that a 19-country area of southeastern Illinois is a favorable area to explore for gas in Devonian shale. Although gas shows in the shales have been encountered in several wells drilled in this area, no attempts were made to complete or evaluate a shale gas well until 1979. It is found that conventional rotary drilling with mud base drilling fluids likely causes extensive formation damage and may account for the paucity of gas shows and completion attempts in the Devonian shales; therefore, commercial production of shale gas in Illinois probably will require novel drilling completion techniques not commonly used by local operators. 16 refs.

Cluff, R.M.; Dickerson, D.R.

1982-04-01T23:59:59.000Z

66

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

CO{sub 2} emissions from the combustion of fossil fuels have been linked to global climate change. Proposed carbon management technologies include geologic sequestration of CO{sub 2}. A possible, but untested, sequestration strategy is to inject CO{sub 2} into organic-rich shales. Devonian black shales underlie approximately two-thirds of Kentucky and are thicker and deeper in the Illinois and Appalachian Basin portions of Kentucky than in central Kentucky. The Devonian black shales serve as both the source and trap for large quantities of natural gas; total gas in place for the shales in Kentucky is estimated to be between 63 and 112 trillion cubic feet. Most of this natural gas is adsorbed on clay and kerogen surfaces, analogous to methane storage in coal beds. In coals, it has been demonstrated that CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. The concept that black, organic-rich Devonian shales could serve as a significant geologic sink for CO{sub 2} is the subject of current research. To accomplish this investigation, drill cuttings and cores were selected from the Kentucky Geological Survey Well Sample and Core Library. Methane and carbon dioxide adsorption analyses are being performed to determine the gas-storage potential of the shale and to identify shale facies with the most sequestration potential. In addition, sidewall core samples are being acquired to investigate specific black-shale facies, their potential CO{sub 2} uptake, and the resulting displacement of methane. Advanced logging techniques (elemental capture spectroscopy) are being investigated for possible correlations between adsorption capacity and geophysical log measurements. For the Devonian shale, average total organic carbon is 3.71 (as received) and mean random vitrinite reflectance is 1.16. Measured adsorption isotherm data range from 37.5 to 2,077.6 standard cubic feet of CO{sub 2} per ton (scf/ton) of shale. At 500 psia, adsorption capacity of the Lower Huron Member of the shale is 72 scf/ton. Initial estimates indicate a sequestration capacity of 5.3 billion tons CO{sub 2} in the Lower Huron Member of the Ohio shale in parts of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker portions of the Devonian shales in Kentucky. The black shales of Kentucky could be a viable geologic sink for CO{sub 2}, and their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2004-01-01T23:59:59.000Z

67

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

CO{sub 2} emissions from the combustion of fossil fuels have been linked to global climate change. Proposed carbon management technologies include geologic sequestration of CO{sub 2}. A possible, but untested, sequestration strategy is to inject CO{sub 2} into organic-rich shales. Devonian black shales underlie approximately two-thirds of Kentucky and are thicker and deeper in the Illinois and Appalachian Basin portions of Kentucky than in central Kentucky. The Devonian black shales serve as both the source and trap for large quantities of natural gas; total gas in place for the shales in Kentucky is estimated to be between 63 and 112 trillion cubic feet. Most of this natural gas is adsorbed on clay and kerogen surfaces, analogous to methane storage in coal beds. In coals, it has been demonstrated that CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. The concept that black, organic-rich Devonian shales could serve as a significant geologic sink for CO{sub 2} is the subject of current research. To accomplish this investigation, drill cuttings and cores were selected from the Kentucky Geological Survey Well Sample and Core Library. Methane and carbon dioxide adsorption analyses are being performed to determine the gas-storage potential of the shale and to identify shale facies with the most sequestration potential. In addition, sidewall core samples are being acquired to investigate specific black-shale facies, their potential CO{sub 2} uptake, and the resulting displacement of methane. Advanced logging techniques (elemental capture spectroscopy) are being investigated for possible correlations between adsorption capacity and geophysical log measurements. For the Devonian shale, average total organic carbon is 3.71 (as received) and mean random vitrinite reflectance is 1.16. Measured adsorption isotherm data range from 37.5 to 2,077.6 standard cubic feet of CO{sub 2} per ton (scf/ton) of shale. At 500 psia, adsorption capacity of the Lower Huron Member of the shale is 72 scf/ton. Initial estimates indicate a sequestration capacity of 5.3 billion tons CO{sub 2} in the Lower Huron Member of the Ohio shale in parts of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker portions of the Devonian shales in Kentucky. The black shales of Kentucky could be a viable geologic sink for CO{sub 2}, and their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2003-10-29T23:59:59.000Z

68

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

CO{sub 2} emissions from the combustion of fossil fuels have been linked to global climate change. Proposed carbon management technologies include geologic sequestration of CO{sub 2}. A possible, but untested, sequestration strategy is to inject CO{sub 2} into organic-rich shales. Devonian black shales underlie approximately two-thirds of Kentucky and are thicker and deeper in the Illinois and Appalachian Basin portions of Kentucky than in central Kentucky. The Devonian black shales serve as both the source and trap for large quantities of natural gas; total gas in place for the shales in Kentucky is estimated to be between 63 and 112 trillion cubic feet. Most of this natural gas is adsorbed on clay and kerogen surfaces, analogous to methane storage in coal beds. In coals, it has been demonstrated that CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. The concept that black, organic-rich Devonian shales could serve as a significant geologic sink for CO{sub 2} is the subject of current research. To accomplish this investigation, drill cuttings and cores were selected from the Kentucky Geological Survey Well Sample and Core Library. Methane and carbon dioxide adsorption analyses are being performed to determine the gas-storage potential of the shale and to identify shale facies with the most sequestration potential. In addition, sidewall core samples are being acquired to investigate specific black-shale facies, their potential CO{sub 2} uptake, and the resulting displacement of methane. Advanced logging techniques (elemental capture spectroscopy) are being investigated for possible correlations between adsorption capacity and geophysical log measurements. For the Devonian shale, average total organic carbon is 3.71 percent (as received) and mean random vitrinite reflectance is 1.16. Measured adsorption isotherm data range from 37.5 to 2,077.6 standard cubic feet of CO{sub 2} per ton (scf/ton) of shale. At 500 psia, adsorption capacity of the Lower Huron Member of the shale is 72 scf/ton. Initial estimates indicate a sequestration capacity of 5.3 billion tons CO{sub 2} in the Lower Huron Member of the Ohio shale in parts of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker portions of the Devonian shales in Kentucky. The black shales of Kentucky could be a viable geologic sink for CO{sub 2}, and their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2004-04-01T23:59:59.000Z

69

Comment on “Modeling and prediction of natural gas fracking pad landscapes in the Marcellus Shale region, USA” by Qingming Meng  

Science Journals Connector (OSTI)

Abstract In modeling and prediction of natural gas fracking pad landscapes in the Marcellus Shale region, USA, the author asserts that landscape and environmental characteristics are the driving factors behind the siting of natural gas pads in the southwestern area of the Marcellus Shale, Pennsylvania, USA. In the article, the author largely dismisses the importance of geology for site prediction. Although the study is useful for understanding landscape characteristics in a small area of the Marcellus Shale, his premise that “the key variables for natural gas fracking can be landscape and environmental variables rather than geological variables” is flawed and thus could lead to erroneous assumptions when creating land use plans. A more reasonable assumption is that the surface siting of natural gas wells is secondary to geologic considerations, as the current topography bears little influence on the geology.

Wendy A. Klein; Alex K. Manda

2015-01-01T23:59:59.000Z

70

By Terry Engelder and Gary G. Lash UNIVERSITY PARK, PA.The shale gas rush is on. Excitement over natural gas production from a  

E-Print Network (OSTI)

natural gas production from a number of Devonian-Mississippian black shales such as the Barnett of fracture generation during the burial history of the Marcellus Shale. Source Of Stress The primary source to- ward a central point. Gravity acts normal to the earth's surface, generating the vertical

Engelder, Terry

71

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

CO{sub 2} emissions from the combustion of fossil fuels have been linked to global climate change. Proposed carbon management technologies include geologic sequestration of CO{sub 2}. A possible, but untested, sequestration strategy is to inject CO{sub 2} into organic-rich shales. Devonian black shales underlie approximately two-thirds of Kentucky and are thicker and deeper in the Illinois and Appalachian Basin portions of Kentucky than in central Kentucky. The Devonian black shales serve as both the source and trap for large quantities of natural gas; total gas in place for the shales in Kentucky is estimated to be between 63 and 112 trillion cubic feet. Most of this natural gas is adsorbed on clay and kerogen surfaces, analogous to methane storage in coal beds. In coals, it has been demonstrated that CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. The concept that black, organic-rich Devonian shales could serve as a significant geologic sink for CO{sub 2} is the subject of current research. To accomplish this investigation, drill cuttings and cores were selected from the Kentucky Geological Survey Well Sample and Core Library. Methane and carbon dioxide adsorption analyses are being performed to determine the gas-storage potential of the shale and to identify shale facies with the most sequestration potential. In addition, sidewall core samples are being acquired to investigate specific black-shale facies, their potential CO{sub 2} uptake, and the resulting displacement of methane. Advanced logging techniques (elemental capture spectroscopy) are being investigated for possible correlations between adsorption capacity and geophysical log measurements. Initial estimates indicate a sequestration capacity of 5.3 billion tons CO{sub 2} in the Lower Huron Member of the Ohio shale in parts of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker portions of the Devonian shales in Kentucky. Should the black shales of Kentucky prove to be a viable geologic sink for CO{sub 2}, their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2003-07-28T23:59:59.000Z

72

Table 15. Shale natural gas proved reserves, reserves changes, and production, wet after lease separation, 2011  

U.S. Energy Information Administration (EIA) Indexed Site

: Shale natural gas proved reserves, reserves changes, and production, wet after lease separation, 2011 : Shale natural gas proved reserves, reserves changes, and production, wet after lease separation, 2011 billion cubic feet Published New Reservoir Proved Revision Revision New Field Discoveries Estimated Proved Reserves Adjustments Increases Decreases Sales Acquisitions Extensions Discoveries in Old FieldsProduction Reserves State and Subdivision 12/31/10 (+,-) (+) (-) (-) (+) (+) (+) (+) (-) 12/31/11 Alaska 0 0 0 0 0 0 0 0 0 0 0 Lower 48 States 97,449 1,584 25,993 23,455 22,694 27,038 32,764 232 699 7,994 131,616 Alabama 0 0 0 0 0 0 0 0 0 0 0 Arkansas 12,526 655 502 141 6,087 6,220 2,073 0 0 940 14,808 California 0 1 912 0 0 0 43 0 0 101 855 Colorado 4 0 4 0 0 0 5 0 0 3 10 Florida 0 0 0 0 0 0 0 0 0 0 0 Kansas 0 0 0 0 0 0 0 0 0 0 0 Kentucky 10 0 44 11 45 45 2 0 0 4 41 Louisiana 20,070 -172 2,002 3,882 3,782 4,291 5,367 0 140 2,084 21,950 North Onshore 20,070 -172 2,002 3,882 3,782 4,291 5,367

73

Shale Gas Hydraulic Fracturing in the Dutch Posidonia Shale:.  

E-Print Network (OSTI)

??Recently the oil and gas industry is looking at the Posidonia shale in the Dutch subsurface for production of the unconventional shale gas. This is… (more)

Janzen, M.R.

2012-01-01T23:59:59.000Z

74

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Devonian gas shales underlie approximately two-thirds of Kentucky. In the shale, natural gas is adsorbed on clay and kerogen surfaces. This is analogous to methane storage in coal beds, where CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. Drill cuttings from the Kentucky Geological Survey Well Sample and Core Library were sampled to determine CO{sub 2} and CH{sub 4} adsorption isotherms. Sidewall core samples were acquired to investigate CO{sub 2} displacement of methane. An elemental capture spectroscopy log was acquired to investigate possible correlations between adsorption capacity and mineralogy. Average random vitrinite reflectance data range from 0.78 to 1.59 (upper oil to wet gas and condensate hydrocarbon maturity range). Total organic content determined from acid-washed samples ranges from 0.69 to 14 percent. CO{sub 2} adsorption capacities at 400 psi range from a low of 14 scf/ton in less organic-rich zones to more than 136 scf/ton. There is a direct correlation between measured total organic carbon content and the adsorptive capacity of the shale; CO{sub 2} adsorption capacity increases with increasing organic carbon content. Initial estimates based on these data indicate a sequestration capacity of 5.3 billion tons of CO{sub 2} in the Lower Huron Member of the Ohio Shale of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker parts of the Devonian shales in Kentucky. Should the black shales of Kentucky prove to be a viable geologic sink for CO{sub 2}, their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2005-01-28T23:59:59.000Z

75

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Devonian gas shales underlie approximately two-thirds of Kentucky. In the shale, natural gas is adsorbed on clay and kerogen surfaces. This is analogous to methane storage in coal beds, where CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. Drill cuttings from the Kentucky Geological Survey Well Sample and Core Library were sampled to determine CO{sub 2} and CH{sub 4} adsorption isotherms. Sidewall core samples were acquired to investigate CO{sub 2} displacement of methane. An elemental capture spectroscopy log was acquired to investigate possible correlations between adsorption capacity and mineralogy. Average random vitrinite reflectance data range from 0.78 to 1.59 (upper oil to wet gas and condensate hydrocarbon maturity range). Total organic content determined from acid-washed samples ranges from 0.69 to 14 percent. CO{sub 2} adsorption capacities at 400 psi range from a low of 14 scf/ton in less organic-rich zones to more than 136 scf/ton. There is a direct correlation between measured total organic carbon content and the adsorptive capacity of the shale; CO{sub 2} adsorption capacity increases with increasing organic carbon content. Initial estimates based on these data indicate a sequestration capacity of 5.3 billion tons of CO{sub 2} in the Lower Huron Member of the Ohio Shale of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker parts of the Devonian shales in Kentucky. Should the black shales of Kentucky prove to be a viable geologic sink for CO{sub 2}, their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2005-04-26T23:59:59.000Z

76

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Devonian gas shales underlie approximately two-thirds of Kentucky. In the shale, natural gas is adsorbed on clay and kerogen surfaces. This is analogous to methane storage in coal beds, where CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. Drill cuttings from the Kentucky Geological Survey Well Sample and Core Library were sampled to determine CO{sub 2} and CH{sub 4} adsorption isotherms. Sidewall core samples were acquired to investigate CO{sub 2} displacement of methane. An elemental capture spectroscopy log was acquired to investigate possible correlations between adsorption capacity and mineralogy. Average random vitrinite reflectance data range from 0.78 to 1.59 (upper oil to wet gas and condensate hydrocarbon maturity range). Total organic content determined from acid-washed samples ranges from 0.69 to 14 percent. CO{sub 2} adsorption capacities at 400 psi range from a low of 14 scf/ton in less organic-rich zones to more than 136 scf/ton. There is a direct correlation between measured total organic carbon content and the adsorptive capacity of the shale; CO{sub 2} adsorption capacity increases with increasing organic carbon content. Initial estimates based on these data indicate a sequestration capacity of 5.3 billion tons of CO{sub 2} in the Lower Huron Member of the Ohio Shale of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker parts of the Devonian shales in Kentucky. Should the black shales of Kentucky prove to be a viable geologic sink for CO{sub 2}, their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2005-07-29T23:59:59.000Z

77

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Devonian gas shales underlie approximately two-thirds of Kentucky. In the shale, natural gas is adsorbed on clay and kerogen surfaces. This is analogous to methane storage in coal beds, where CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. Drill cuttings from the Kentucky Geological Survey Well Sample and Core Library are being sampled to collect CO{sub 2} adsorption isotherms. Sidewall core samples have been acquired to investigate CO{sub 2} displacement of methane. An elemental capture spectroscopy log has been acquired to investigate possible correlations between adsorption capacity and mineralogy. Average random vitrinite reflectance data range from 0.78 to 1.59 (upper oil to wet gas and condensate hydrocarbon maturity range). Total organic content determined from acid-washed samples ranges from 0.69 to 4.62 percent. CO{sub 2} adsorption capacities at 400 psi range from a low of 19 scf/ton in less organic-rich zones to more than 86 scf/ton in the Lower Huron Member of the shale. Initial estimates based on these data indicate a sequestration capacity of 5.3 billion tons of CO{sub 2} in the Lower Huron Member of the Ohio Shale of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker parts of the Devonian shales in Kentucky. Should the black shales of Kentucky prove to be a viable geologic sink for CO{sub 2}, their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2004-08-01T23:59:59.000Z

78

Table 14. Shale natural gas proved reserves and production, 2008-2011  

U.S. Energy Information Administration (EIA) Indexed Site

: Shale natural gas proved reserves and production, 2008 - 2011 : Shale natural gas proved reserves and production, 2008 - 2011 billion cubic feet State and Subdivision 2008 2009 2010 2011 2008 2009 2010 2011 Alaska 0 0 0 0 0 0 0 0 Lower 48 States 34,428 60,644 97,449 131,616 2,116 3,110 5,336 7,994 Alabama 2 0 0 0 0 0 0 0 Arkansas 3,833 9,070 12,526 14,808 279 527 794 940 California 0 0 0 855 0 0 0 101 Colorado 0 4 4 10 0 1 1 3 Florida 0 0 0 0 0 0 0 0 Kansas 0 0 0 0 0 0 0 0 Kentucky 20 55 10 41 2 5 4 4 Louisiana 858 9,307 20,070 21,950 23 293 1,232 2,084 North 858 9,307 20,070 21,950 23 293 1,232 2,084 South 0 0 0 0 0 0 0 0 State Offshore 0 0 0 0 0 0 0 0 Michigan 2,894 2,499 2,306 1,947 122 132 120 106 Mississippi 0 0 0 0 0 0 0 0 Montana 125 137 186 192 13 7 13 13 New Mexico 0 36 123 144 0 2 6 9 East 0 7 35 23 0 1 3 5 West 0 29 88 121 0 1 3 4 New York 0 0 0 0 0 0 0 0 North Dakota 24 368 1,185 1,649 3 25 64 95 Ohio 0 0 0 0 0 0 0 0 Oklahoma 3,845 6,389 9,670 10,733 168 249 403 476 Pennsylvania 88 3,790 10,708

79

ANALYSIS OF DEVONIAN BLACK SHALES IN KENTUCKY FOR POTENTIAL CARBON DIOXIDE SEQUESTRATION AND ENHANCED NATURAL GAS PRODUCTION  

SciTech Connect

Devonian gas shales underlie approximately two-thirds of Kentucky. In the shale, natural gas is adsorbed on clay and kerogen surfaces. This is analogous to methane storage in coal beds, where CO{sub 2} is preferentially adsorbed, displacing methane. Black shales may similarly desorb methane in the presence of CO{sub 2}. Drill cuttings from the Kentucky Geological Survey Well Sample and Core Library were sampled to determine CO{sub 2} and CH{sub 4} adsorption isotherms. Sidewall core samples were acquired to investigate CO{sub 2} displacement of methane. An elemental capture spectroscopy log was acquired to investigate possible correlations between adsorption capacity and mineralogy. Average random vitrinite reflectance data range from 0.78 to 1.59 (upper oil to wet gas and condensate hydrocarbon maturity range). Total organic content determined from acid-washed samples ranges from 0.69 to 14 percent. CO{sub 2} adsorption capacities at 400 psi range from a low of 14 scf/ton in less organic-rich zones to more than 136 scf/ton. Initial estimates based on these data indicate a sequestration capacity of 5.3 billion tons of CO{sub 2} in the Lower Huron Member of the Ohio Shale of eastern Kentucky and as much as 28 billion tons total in the deeper and thicker parts of the Devonian shales in Kentucky. Should the black shales of Kentucky prove to be a viable geologic sink for CO{sub 2}, their extensive occurrence in Paleozoic basins across North America would make them an attractive regional target for economic CO{sub 2} storage and enhanced natural gas production.

Brandon C. Nuttall

2005-01-01T23:59:59.000Z

80

Harmonization of initial estimates of shale gas life cycle greenhouse gas emissions for electric power generation  

Science Journals Connector (OSTI)

...initial estimates of shale gas life cycle greenhouse gas emissions for electric power generation 10.1073/pnas.1309334111...of unconventional natural gas, particularly shale gas...best-performing coal-fired generation under certain...

Garvin A. Heath; Patrick O’Donoughue; Douglas J. Arent; Morgan Bazilian

2014-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


81

AVESTAR® - Shale Gas Processing (SGP)  

NLE Websites -- All DOE Office Websites (Extended Search)

Shale Gas Processing (SGP) Shale Gas Processing (SGP) SPG The shale gas revolution is transforming America's energy landscape and economy. The shale gas boom, including the Marcellus play in Appalachia, is driving job creation and investment in the energy sector and is also helping to revive other struggling sectors of the economy like manufacturing. Continued growth in domestic shale gas processing requires that energy companies maximize the efficiency and profitability from their operations through excellent control and drive maximum business value from all their plant assets, all while reducing negative environmental impact and improving safety. Changing demographics and rapidly evolving plant automation and control technologies also necessitate training and empowering the next-generation of shale gas process engineering and

82

Evaluation of EOR Potential by Gas and Water Flooding in Shale Oil Reservoirs.  

E-Print Network (OSTI)

??The demand for oil and natural gas will continue to increase for the foreseeable future; unconventional resources such as tight oil, shale gas, shale oil… (more)

Chen, Ke

2013-01-01T23:59:59.000Z

83

Water's Journey Through the Shale Gas Drilling and  

E-Print Network (OSTI)

Water's Journey Through the Shale Gas Drilling and Production Processes in the Mid-Atlantic Region: Marcellus shale drilling in progress, Beaver Run Reservoir, Westmoreland County. Credit: Robert Donnan. Gas in the Marcellus shale natural gas industry in the Mid-Atlantic region. Using publicly available information, we

Lee, Dongwon

84

Organic substances in produced and formation water from unconventional natural gas extraction in coal and shale  

Science Journals Connector (OSTI)

Abstract Organic substances in produced and formation water from coalbed methane (CBM) and gas shale plays from across the USA were examined in this study. Disposal of produced waters from gas extraction in coal and shale is an important environmental issue because of the large volumes of water involved and the variable quality of this water. Organic substances in produced water may be environmentally relevant as pollutants, but have been little studied. Results from five CBM plays and two gas shale plays (including the Marcellus Shale) show a myriad of organic chemicals present in the produced and formation water. Organic compound classes present in produced and formation water in CBM plays include: polycyclic aromatic hydrocarbons (PAHs), heterocyclic compounds, alkyl phenols, aromatic amines, alkyl aromatics (alkyl benzenes, alkyl biphenyls), long-chain fatty acids, and aliphatic hydrocarbons. Concentrations of individual compounds range from CBM samples) range from 50 to 100 ?g/L. Total dissolved organic carbon (TOC) in CBM produced water is generally in the 1–4 mg/L range. Excursions from this general pattern in produced waters from individual wells arise from contaminants introduced by production activities (oils, grease, adhesives, etc.). Organic substances in produced and formation water from gas shale unimpacted by production chemicals have a similar range of compound classes as CBM produced water, and TOC levels of about 8 mg/L. However, produced water from the Marcellus Shale using hydraulic fracturing has TOC levels as high as 5500 mg/L and a range of added organic chemicals including, solvents, biocides, scale inhibitors, and other organic chemicals at levels of 1000 s of ?g/L for individual compounds. Levels of these hydraulic fracturing chemicals and TOC decrease rapidly over the first 20 days of water recovery and some level of residual organic contaminants remain up to 250 days after hydraulic fracturing. Although the environmental impacts of the organics in produced water are not well defined, results suggest that care should be exercised in the disposal and release of produced waters containing these organic substances into the environment because of the potential toxicity of many of these substances.

William Orem; Calin Tatu; Matthew Varonka; Harry Lerch; Anne Bates; Mark Engle; Lynn Crosby; Jennifer McIntosh

2014-01-01T23:59:59.000Z

85

Life cycle greenhouse gas footprint of shale gas: a probabilistic approach  

Science Journals Connector (OSTI)

With the increase in natural gas (NG) production in recent years, primarily from shale gas, some sources, including the US Environmental ... the data from the Montney and Horn River shale gas basins in the Northe...

Anjuman Shahriar; Rehan Sadiq…

2014-12-01T23:59:59.000Z

86

Technically recoverable Devonian shale gas in Kentucky  

SciTech Connect

This report evaluates the natural gas potential of the Devonian Age shales of Kentucky. For this, the study: (1) compiles the latest geologic and reservoir data to establish the gas in-place; (2) analyzes and models the dominant gas production mechanisms; and (3) examines alternative well stimulation and production strategies for most efficiently recovering the in-place gas. The major findings of the study include the following: (1) The technically recoverable gas from Devonian shale (Lower and Upper Huron, Rhinestreet, and Cleveland intervals) in Kentucky is estimated to range from 9 to 23 trillion cubic feet (Tcf). (2) The gas in-place for the Devonian shales in eastern Kentucky is 82 Tcf. About one half of this amount is found in the Big Sandy gas field and its immediate extensions. The remainder is located in the less naturally fractured, but organically rich area to the west of the Big Sandy. (3) The highly fractured shales in the Big Sandy area in southeast Kentucky and the more shallow shales of eastern Kentucky respond well to small-scale stimulation. New, larger-scale stimulation technology will be required for the less fractured, anisotropic Devonian shales in the rest of the state. 44 refs., 49 figs., 24 tabs.

Kuuskraa, V.A.; Sedwick, K.B.; Thompson, K.B.; Wicks, D.E.

1985-05-01T23:59:59.000Z

87

Research of Shale Gas in China  

Science Journals Connector (OSTI)

The shale gas is an efficient and abundant energy sources ... field. With the support of our country, shale gas research has very progress. The researchers commenced ... in the early period of 21st century. Shale

Haifeng Chen; Miao He; Bing Han; Zhonglin Li…

2013-01-01T23:59:59.000Z

88

Technology-Based Oil and Natural Gas Plays: Shale Shock! Could There Be Billions in the Bakken?  

Gasoline and Diesel Fuel Update (EIA)

Technology-Based Technology-Based Oil and Natural Gas Plays: Shale Shock! Could There Be Billions in the Bakken? Through the use of technology, U.S. oil and natural gas operators are converting previously uneconomic oil and natural gas resources into proved reserves and production. The Bakken Formation of the Williston Basin is a success story of horizontal drilling, fracturing, and completion technologies. The recent, highly productive oil field discoveries within the Bakken Formation did not come from venturing out into deep uncharted waters heretofore untapped by man, nor from blazing a trail into pristine environs never open to drilling before. Instead, success came from analysis of geologic data on a decades-old producing area, identification of uptapped resources, and application of the new drilling and completion technology necessary to exploit them. In short, it came from using technology

89

IS THE U.S. SHALE GAS BOOM HAVING AN EFFECT ON THE EUROPEAN GAS MARKET?.  

E-Print Network (OSTI)

?? This thesis focuses on the impact of the American shale gas boom on the European natural gas market. The study presents different tests in… (more)

Yao, Isaac Kouame

2013-01-01T23:59:59.000Z

90

DOE Gas Hydrate R&D: Shale Gas Déjà Vu?  

Energy.gov (U.S. Department of Energy (DOE))

More than 30 years ago, DOE looked into the future and saw the potentially large benefit of developing promising but difficult-to-extract unconventional natural gas resources, particularly those from shale formations. As a result, it began sponsoring research and development (R&D), partnering with industry and academia, and, among other things, invested about $137 million in the Eastern Gas Shale Program between 1978 and 1992.

91

Techno-economic analysis of water management options for unconventional natural gas developments in the Marcellus Shale  

E-Print Network (OSTI)

The emergence of large-scale hydrocarbon production from shale reservoirs has revolutionized the oil and gas sector, and hydraulic fracturing has been the key enabler of this advancement. As a result, the need for water ...

Karapataki, Christina

2012-01-01T23:59:59.000Z

92

Hydraulic Fracturing Simulation of Complex Fractures Growth in Naturally Fractured Shale Gas Reservoir  

Science Journals Connector (OSTI)

Hydraulic fracturing is regarded as one of the essential techniques for developing shale reservoirs at present. During fracturing, propagation of multi-fractures and complex fracture network is developed as re...

Wang Song; Zhao Jinzhou; Li Yongming

2014-10-01T23:59:59.000Z

93

Proposed natural gas protection program for Naval Oil Shale Reserves Nos. 1 and 3, Garfield County, Colorado  

SciTech Connect

As a result of US Department of Energy (DOE) monitoring activities, it was determined in 1983 that the potential existed for natural gas resources underlying the Naval Oil Shales Reserves Nos. 1 and 3 (NOSrs-1 3) to be drained by privately-owned gas wells that were being drilled along the Reserves borders. In 1985, DOE initiated a limited number of projects to protect the Government's interest in the gas resources by drilling its own offset production'' wells just inside the boundaries, and by formally sharing in the production, revenues and costs of private wells that are drilled near the boundaries ( communitize'' the privately-drilled wells). The scope of these protection efforts must be expanded. DOE is therefore proposing a Natural Gas Protection Program for NOSRs-1 3 which would be implemented over a five-year period that would encompass a total of 200 wells (including the wells drilled and/or communitized since 1985). Of these, 111 would be offset wells drilled by DOE on Government land inside the NOSRs' boundaries and would be owned either entirely by the Government or communitized with adjacent private land owners or lessees. The remainder would be wells drilled by private operators in an area one half-mile wide extending around the NOSRs boundaries and communitized with the Government. 23 refs., 2 figs., 6 tabs.

Not Available

1991-08-01T23:59:59.000Z

94

Economic analysis of shale gas wells in the United States  

E-Print Network (OSTI)

Natural gas produced from shale formations has increased dramatically in the past decade and has altered the oil and gas industry greatly. The use of horizontal drilling and hydraulic fracturing has enabled the production ...

Hammond, Christopher D. (Christopher Daniel)

2013-01-01T23:59:59.000Z

95

Natural gas distributed throughout the Marcellus black shale in northern Appalachia could boost proven U.S. gas reserves by trillions of cubic feet (see http://live.psu.edu/story/28116).  

E-Print Network (OSTI)

Natural gas distributed throughout the Marcellus black shale in northern Appalachia could boost is the second largest producing on-shore domestic natural gas field in the United States after the San Juan and opportunities faced by landowners navigating the legal and practical issues of leasing their land for natural

Boyer, Elizabeth W.

96

Risks and Risk Governance in Unconventional Shale Gas Development  

Science Journals Connector (OSTI)

The air pollutants associated with shale gas development include greenhouse gases (primarily methane), ozone precursors (volatile organic compounds and nitrogen oxides), air toxics, and particulate matter from flaring, compressors, and engines. ... Kiviat, E.Risks to biodiversity from hydraulic fracturing for natural gas in the Marcellus and Utica shales Annu. ...

Mitchell J. Small; Paul C. Stern; Elizabeth Bomberg; Susan M. Christopherson; Bernard D. Goldstein; Andrei L. Israel; Robert B. Jackson; Alan Krupnick; Meagan S. Mauter; Jennifer Nash; D. Warner North; Sheila M. Olmstead; Aseem Prakash; Barry Rabe; Nathan Richardson; Susan Tierney; Thomas Webler; Gabrielle Wong-Parodi; Barbara Zielinska

2014-07-01T23:59:59.000Z

97

I. Canada EIA/ARI World Shale Gas and Shale Oil Resource Assessment I. CANADA SUMMARY  

E-Print Network (OSTI)

by this resource study. Figure I-1 illustrates certain of the major shale gas and shale oil basins in

unknown authors

98

Technically Recoverable Shale Oil and Shale Gas Resources  

U.S. Energy Information Administration (EIA) Indexed Site

Technically Recoverable Shale Oil and Technically Recoverable Shale Oil and Shale Gas Resources: An Assessment of 137 Shale Formations in 41 Countries Outside the United States June 2013 Independent Statistics & Analysis www.eia.gov U.S. Department of Energy Washington, DC 20585 June 2013 U.S. Energy Information Administration | Technically Recoverable Shale Oil and Shale Gas Resources 1 This report was prepared by the U.S. Energy Information Administration (EIA), the statistical and analytical agency within the U.S. Department of Energy. By law, EIA's data, analyses, and forecasts are independent of approval by any other officer or employee of the United States Government. The views in this report therefore should not be construed as representing those of the Department of Energy or

99

Water management practices used by Fayetteville shale gas producers.  

SciTech Connect

Water issues continue to play an important role in producing natural gas from shale formations. This report examines water issues relating to shale gas production in the Fayetteville Shale. In particular, the report focuses on how gas producers obtain water supplies used for drilling and hydraulically fracturing wells, how that water is transported to the well sites and stored, and how the wastewater from the wells (flowback and produced water) is managed. Last year, Argonne National Laboratory made a similar evaluation of water issues in the Marcellus Shale (Veil 2010). Gas production in the Marcellus Shale involves at least three states, many oil and gas operators, and multiple wastewater management options. Consequently, Veil (2010) provided extensive information on water. This current study is less complicated for several reasons: (1) gas production in the Fayetteville Shale is somewhat more mature and stable than production in the Marcellus Shale; (2) the Fayetteville Shale underlies a single state (Arkansas); (3) there are only a few gas producers that operate the large majority of the wells in the Fayetteville Shale; (4) much of the water management information relating to the Marcellus Shale also applies to the Fayetteville Shale, therefore, it can be referenced from Veil (2010) rather than being recreated here; and (5) the author has previously published a report on the Fayetteville Shale (Veil 2007) and has helped to develop an informational website on the Fayetteville Shale (Argonne and University of Arkansas 2008), both of these sources, which are relevant to the subject of this report, are cited as references.

Veil, J. A. (Environmental Science Division)

2011-06-03T23:59:59.000Z

100

Secretary of Energy Advisory Board Subcommittee Releases Shale Gas  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Subcommittee Releases Shale Gas Subcommittee Releases Shale Gas Recommendations Secretary of Energy Advisory Board Subcommittee Releases Shale Gas Recommendations August 11, 2011 - 8:54am Addthis WASHINGTON, D.C. - A diverse group of advisors to Energy Secretary Steven Chu today released a series of consensus-based recommendations calling for increased measurement, public disclosure and a commitment to continuous improvement in the development and environmental management of shale gas, which has rapidly grown to nearly 30 percent of natural gas production in the United States. Increased transparency and a focus on best practices "benefits all parties in shale gas production: regulators will have more complete and accurate information, industry will achieve more efficient operations and

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


101

Water management technologies used by Marcellus Shale Gas Producers.  

SciTech Connect

Natural gas represents an important energy source for the United States. According to the U.S. Department of Energy's (DOE's) Energy Information Administration (EIA), about 22% of the country's energy needs are provided by natural gas. Historically, natural gas was produced from conventional vertical wells drilled into porous hydrocarbon-containing formations. During the past decade, operators have increasingly looked to other unconventional sources of natural gas, such as coal bed methane, tight gas sands, and gas shales.

Veil, J. A.; Environmental Science Division

2010-07-30T23:59:59.000Z

102

Shale gas production: potential versus actual greenhouse gas emissions  

E-Print Network (OSTI)

Estimates of greenhouse gas (GHG) emissions from shale gas production and use are controversial. Here we assess the level of GHG emissions from shale gas well hydraulic fracturing operations in the United States during ...

O’Sullivan, Francis Martin

103

Interagency Collaboration to Address Environmental Impacts of Shale Gas  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Interagency Collaboration to Address Environmental Impacts of Shale Interagency Collaboration to Address Environmental Impacts of Shale Gas Drilling Interagency Collaboration to Address Environmental Impacts of Shale Gas Drilling April 23, 2013 - 12:06pm Addthis Dr. John Howard (right), Director of NIOSH and Dr. Anthony Cugini (left), Director of NETL announced the establishment of a research partnership to evaluate the environmental impacts of shale gas drilling. Dr. John Howard (right), Director of NIOSH and Dr. Anthony Cugini (left), Director of NETL announced the establishment of a research partnership to evaluate the environmental impacts of shale gas drilling. Washington, DC - A memorandum of understanding to perform collaborative research related to airborne emissions and air quality at natural gas drilling sites has been signed by the Office of Fossil Energy's National

104

Interagency Collaboration to Address Environmental Impacts of Shale Gas  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Interagency Collaboration to Address Environmental Impacts of Shale Interagency Collaboration to Address Environmental Impacts of Shale Gas Drilling Interagency Collaboration to Address Environmental Impacts of Shale Gas Drilling April 23, 2013 - 12:06pm Addthis Dr. John Howard (right), Director of NIOSH and Dr. Anthony Cugini (left), Director of NETL announced the establishment of a research partnership to evaluate the environmental impacts of shale gas drilling. Dr. John Howard (right), Director of NIOSH and Dr. Anthony Cugini (left), Director of NETL announced the establishment of a research partnership to evaluate the environmental impacts of shale gas drilling. Washington, DC - A memorandum of understanding to perform collaborative research related to airborne emissions and air quality at natural gas drilling sites has been signed by the Office of Fossil Energy's National

105

DOE's Early Investment in Shale Gas Technology Producing Results Today  

Energy.gov (U.S. Department of Energy (DOE))

A $92 million research investment in the 1970s by the U.S. Department of Energy is today being credited with technological contributions that have stimulated development of domestic natural gas from shales.

106

Natural Gas Study Guide - Middle School | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Middle School Natural Gas Study Guide - Middle School Natural Gas Study Guide - Middle School More Documents & Publications Natural Gas Study Guide - High School What is shale gas?...

107

Shale Gas Production  

Gasoline and Diesel Fuel Update (EIA)

Gas Production Gas Production (Billion Cubic Feet) Period: Annual Download Series History Download Series History Definitions, Sources & Notes Definitions, Sources & Notes 2007 2008 2009 2010 2011 View History U.S. 1,293 2,116 3,110 5,336 7,994 2007-2011 Alabama 0 0 0 0 2007-2010 Alaska 0 0 0 0 0 2007-2011 Arkansas 94 279 527 794 940 2007-2011 California 101 2011-2011 Colorado 0 0 1 1 3 2007-2011 Kentucky 2 2 5 4 4 2007-2011 Louisiana 1 23 293 1,232 2,084 2007-2011 North 1 23 293 1,232 2,084 2007-2011 South Onshore 0 2011-2011 Michigan 148 122 132 120 106 2007-2011 Montana 12 13 7 13 13 2007-2011 New Mexico 2 0 2 6 9 2007-2011 East 2 0 1 3 5 2007-2011 West 0 0 1 3 4 2007-2011 North Dakota 3 3 25 64 95 2007-2011

108

Challenges and strategies of shale gas development.  

E-Print Network (OSTI)

??The objective of this paper is to help new investors and project developers identify the challenges of shale gas E&P and to enlighten them of… (more)

Lee, Sunje

2012-01-01T23:59:59.000Z

109

Outlook for U.S. shale oil and gas  

Gasoline and Diesel Fuel Update (EIA)

shale oil and gas shale oil and gas IAEE/AEA Meeting January 4, 2014 | Philadelphia, PA By Adam Sieminski, EIA Administrator Key insights on drilling productivity and production trends Adam Sieminski, IAEE/AEA January 4, 2014 2 * The U.S. has experienced a rapid increase in natural gas and oil production from shale and other tight resources * Six tight oil and shale gas plays taken together account for nearly 90% of domestic oil production growth and virtually all domestic natural gas production growth over the last 2 years * Higher drilling efficiency and new well productivity, rather than an increase in the rig count, have been the main drivers of recent production growth * Steep legacy production decline rates are being offset by growing

110

Harmonization of initial estimates of shale gas life cycle greenhouse gas emissions for electric power generation  

Science Journals Connector (OSTI)

...thermal efficiency, fuel heating value, power plant...natural gas as a bridge fuel . Clim Change 118 : 609...emissions and freshwater consumption of Marcellus shale gas...following Fig. S1) for the fuel cycle of shale gas...water, and/or oil) Vessel and pipeline blowdowns...

Garvin A. Heath; Patrick O’Donoughue; Douglas J. Arent; Morgan Bazilian

2014-01-01T23:59:59.000Z

111

Gas Shale PlaysÂ… The Global Transition  

U.S. Energy Information Administration (EIA) Indexed Site

XX. China EIA/ARI World Shale Gas and Shale Oil Resource Assessment XX. China EIA/ARI World Shale Gas and Shale Oil Resource Assessment May 17, 2013 XX-1 XX. CHINA SUMMARY China has abundant shale gas and shale oil potential in seven prospective basins: Sichuan, Tarim, Junggar, Songliao, the Yangtze Platform, Jianghan and Subei, Figure XX-1. Figure XX-1. China's Seven Most Prospective Shale Gas and Shale Oil Basins are the Jianghan, Junggar, Sichuan, Songliao, Subei, Tarim, and Yangtze Platform. Source: ARI, 2013. XX. China EIA/ARI World Shale Gas and Shale Oil Resource Assessment

112

Unconventional natural gas resources in Pennsylvania: The backstory of the modern Marcellus Shale play  

Science Journals Connector (OSTI)

...it supplied several users in the area with enough gas for lighting purposes. In 1850, Hart's well was deepened to 50 ft...glaciations driving eustasy in the Early-Middle Devonian greenhouse world: Palaeogeography, Palaeoclimatology, Palaeoecology...

Kristin M. Carter; John A. Harper; Katherine W. Schmid; Jaime Kostelnik

113

Unconventional natural gas resources in Pennsylvania: The backstory of the modern Marcellus Shale play  

Science Journals Connector (OSTI)

...natural resources and the public estate in article 1, section 27: The...address matters of water budget, sustainable usage, and future water resource...environmental regulations: Fundamentals of real estate practice: Pennsylvania Bar Institute...

Kristin M. Carter; John A. Harper; Katherine W. Schmid; Jaime Kostelnik

114

File:EIA-shale-gas.pdf | Open Energy Information  

Open Energy Info (EERE)

shale-gas.pdf shale-gas.pdf Jump to: navigation, search File File history File usage Shale Gas Plays, Lower 48 States Size of this preview: 776 × 600 pixels. Full resolution ‎(1,650 × 1,275 pixels, file size: 377 KB, MIME type: application/pdf) Description Shale Gas Plays, Lower 48 States Sources Energy Information Administration Related Technologies Natural Gas Creation Date 2010-03-10 Extent National Countries United States UN Region Northern America File history Click on a date/time to view the file as it appeared at that time. Date/Time Thumbnail Dimensions User Comment current 18:38, 20 December 2010 Thumbnail for version as of 18:38, 20 December 2010 1,650 × 1,275 (377 KB) MapBot (Talk | contribs) Automated bot upload You cannot overwrite this file. Edit this file using an external application (See the setup

115

Barriers to the development of China's shale gas industry  

Science Journals Connector (OSTI)

Abstract Shale gas has become a promising onshore energy prospect in China. As much as the country aspires for greater energy independence through the use of its shale gas reserves, this process is slowed down by the combined weight of relative inexperience, lack of technology, geographical complexity, a hostile economic environment, a disincentive pipeline regime, and a complex land ownership system. To foster a better understanding of the current circumstances of the country's shale gas sector, a panel of scholars and experts shared their perspectives and insider knowledge on China's shale gas industry. It was found that some of the country's man-made institutional barriers are factors that have been hindering shale gas development in China, in addition to natural conditions such as water concerns and the complex geography of shale fields. Resolving this situation necessitates breaking the monopoly that major state-owned oil companies have over high-quality shale gas resources, opening pipeline network access, providing geological data, developing the domestic oil service market, creating conditions for fair competition between service providers, and improving the water management system.

Zheng Wan; Tao Huang; Brian Craig

2014-01-01T23:59:59.000Z

116

Shale Gas Development in the Susquehanna River Basin  

U.S. Energy Information Administration (EIA) Indexed Site

Water Resource Challenges Water Resource Challenges From Energy Production Major Types of Power Generation in SRB - Total 15,300 Megawatts - 37.5% 4.0% 12.0% 15.5% 31.0% Nuclear Coal Natural Gas Hydroelectric Other Marcellus Shale Gas Development in the Susquehanna River Basin The Basin: * 27,510-square-mile watershed * Comprises 43 percent of the Chesapeake Bay watershed * 4.2 million population * 60 percent forested * 32,000+ miles of waterways The Susquehanna River: * 444 miles, largest tributary to the Chesapeake Bay * Supplies 18 million gallons a minute to the Bay Susquehanna River Basin Geographic Location of Marcellus Shale within Susq. River Basin 72% of Basin (20,000 Sq. Miles) Underlain by Marcellus Shale Approximate Amount of Natural Gas in Marcellus Shale * U.S. currently produces approx. 30 trillion

117

Increased stray gas abundance in a subset of drinking water wells near Marcellus shale gas extraction  

Science Journals Connector (OSTI)

...2011 ) Natural gas: Should fracking stop? Nature 477 ( 7364...Formation brine to shallow aquifers in Pennsylvania . Proc Natl Acad Sci USA 109 ( 30...hydraulically fractured shale to aquifers . Ground Water 50...constitute the two primary aquifer li- thologies in northeastern...

Robert B. Jackson; Avner Vengosh; Thomas H. Darrah; Nathaniel R. Warner; Adrian Down; Robert J. Poreda; Stephen G. Osborn; Kaiguang Zhao; Jonathan D. Karr

2013-01-01T23:59:59.000Z

118

NETL: News Release - DOE's Early Investment in Shale Gas Technology  

NLE Websites -- All DOE Office Websites (Extended Search)

2, 2011 2, 2011 DOE's Early Investment in Shale Gas Technology Producing Results Today Washington, DC - A $92 million research investment in the 1970s by the U.S. Department of Energy (DOE) is today being credited with technological contributions that have stimulated development of domestic natural gas from shales. The result: more U.S. jobs, increased energy security, and higher revenues for states and the Federal Government. Spurred by the technological advancements resulting from this investment, U.S. shale gas production continues to grow, amounting to more than 8 billion cubic feet per day, or about 14 percent of the total volume of dry natural gas produced in the United States. DOE's Energy Information Administration (EIA) projects that the shale gas share of U.S. natural gas production will reach 45 percent by 2035. The EIA also projects that 827 trillion cubic feet of natural gas is now recoverable from U.S. shales using currently available technology-an increase of nearly 500 trillion cubic feet over earlier estimates.

119

Estimating Major and Minor Natural Fracture Patterns in Gas  

E-Print Network (OSTI)

Estimating Major and Minor Natural Fracture Patterns in Gas Shales Using Production Data Razi Identification of infill drilling locations has been challenging with mixed results in gas shales. Natural fractures are the main source of permeability in gas shales. Natural fracture patterns in shale has a random

Mohaghegh, Shahab

120

Modeling and prediction of natural gas fracking pad landscapes in the Marcellus Shale region, USA. A rejoinder to Klein and Manda's commentary  

Science Journals Connector (OSTI)

Abstract In a comment on my early article (Meng, 2014) published in this journal, Klein and Manda (2015) critiqued some of my discussion points. Most significantly, they posited that “it is [therefore] erroneous to state that [in the Marcellus Shale region] land use characteristics are driving factors in well site/pad determination” because my speculation that “in the Marcellus Shale region the key variables for natural gas fracking can be landscape and environmental variables rather than geological variables” is flawed. In this rejoinder, I demonstrate that not only are their criticisms based on limited geological understanding of fracking, but they are also on an incorrect analysis. Therefore, my original results and conclusions on the driving force of landscape and environmental variables and on the implications to environment management and ecosystem administration and conservation remain stable and valid.

Qingmin Meng

2015-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


121

DOE's Shale Gas and Hydraulic Fracturing Research | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Shale Gas and Hydraulic Fracturing Research Shale Gas and Hydraulic Fracturing Research DOE's Shale Gas and Hydraulic Fracturing Research April 26, 2013 - 11:05am Addthis Statement of Guido DeHoratiis Acting Deputy Assistant Secretary for Oil and Natural Gas before the House Committee on Science, Space, and Technology Subcommittees on Energy and Environment. I want to thank the Chairs, Ranking Members and Members of the Subcommittees for inviting me to appear before you today to discuss the critical role that the Department of Energy's Office of Fossil Energy, in collaboration with the Department of the Interior (DOI) and the Environmental Protection Agency (EPA), is playing to improve the safety and environmental performance of developing our Nation's unconventional oil and natural gas (UOG) resources.

122

90-day Second Report on Shale Gas Production - Secretary of Energy Advisory  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

90-day Second Report on Shale Gas Production - Secretary of Energy 90-day Second Report on Shale Gas Production - Secretary of Energy Advisory Board 90-day Second Report on Shale Gas Production - Secretary of Energy Advisory Board Novemeber 18, 2011 The Shale Gas Subcommittee of the Secretary of Energy Advisory Board is charged with identifying measures that can be taken to reduce the environmental impact and to help assure the safety of shale gas production. Shale gas has become an important part of the nation's energy mix. It has grown rapidly from almost nothing at the beginning of the century to near 30 percent of natural gas production. Americans deserve assurance that the full economic, environmental and energy security benefits of shale gas development will be realized without sacrificing public health, environmental protection and safety. On August 18, 2011 the Subcommittee

123

Gas Shale PlaysÂ… The Global Transition  

U.S. Energy Information Administration (EIA) Indexed Site

Canada EIA/ARI World Shale Gas and Shale Oil Resource Assessment Canada EIA/ARI World Shale Gas and Shale Oil Resource Assessment May 17, 2013 I-1 I. CANADA SUMMARY Canada has a series of large hydrocarbon basins with thick, organic-rich shales that are assessed by this resource study. Figure I-1 illustrates certain of the major shale gas and shale oil basins in Western Canada. Figure I-1. Selected Shale Gas and Oil Basins of Western Canada Source: ARI, 2012. I. Canada EIA/ARI World Shale Gas and Shale Oil Resource Assessment May 17, 2013 I-2 The full set of Canadian shale gas and shale oil basins assessed in this study include:

124

Co-conversion of Biomass, Shale-natural gas, and process-derived CO2 into Fuels and Chemicals  

Energy.gov (U.S. Department of Energy (DOE))

Breakout Session 1: New Developments and Hot Topics Session 1-D: Natural Gas & Biomass to Liquids Suresh Babu, Senior Program Manager, Biomass Program Development, Brookhaven National Laboratory

125

A New York or Pennsylvania state of mind: social representations in newspaper coverage of gas development in the Marcellus Shale  

Science Journals Connector (OSTI)

What first comes to mind when you think of natural gas development in the Marcellus Shale region? The information and ideas we hold about shale gas development can strongly influence our discussion of ... environ...

Darrick T. Evensen; Christopher E. Clarke…

2014-03-01T23:59:59.000Z

126

Implications of Shale Gas Development for Climate Change  

Science Journals Connector (OSTI)

Implications of Shale Gas Development for Climate Change ... Most evidence indicates that natural gas as a substitute for coal in electricity production, gasoline in transport, and electricity in buildings decreases greenhouse gases, although as an electricity substitute this depends on the electricity mix displaced. ...

Richard G. Newell; Daniel Raimi

2014-04-22T23:59:59.000Z

127

Miscellaneous States Shale Gas Proved Reserves Acquisitions ...  

U.S. Energy Information Administration (EIA) Indexed Site

Acquisitions (Billion Cubic Feet) Miscellaneous States Shale Gas Proved Reserves Acquisitions (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7...

128

Devonian shale gas resource assessment, Illinois basin  

SciTech Connect

In 1980 the National Petroleum Council published a resource appraisal for Devonian shales in the Appalachian, Michigan, and Illinois basins. Their Illinois basin estimate of 86 TCFG in-place has been widely cited but never verified nor revised. The NPC estimate was based on extremely limited canister off-gas data, used a highly simplified volumetric computation, and is not useful for targeting specific areas for gas exploration. In 1994 we collected, digitized, and normalized 187 representative gamma ray-bulk density logs through the New Albany across the entire basin. Formulas were derived from core analyses and methane adsorption isotherms to estimate total organic carbon (r{sup 2}=0.95) and gas content (r{sup 2}=0.79-0.91) from shale bulk density. Total gas in place was then calculated foot-by-foot through each well, assuming normal hydrostatic pressures and assuming the shale is gas saturated at reservoir conditions. The values thus determined are similar to peak gas contents determined by canister off-gassing of fresh cores but are substantially greater than average off-gas values. Greatest error in the methodology is at low reservoir pressures (or at shallow depths), however, the shale is generally thinner in these areas so the impact on the total resource estimate is small. The total New Albany gas in place was determined by integration to be 323 TCFG. Of this, 210 TCF (67%) is in the upper black Grassy Creek Shale, 72 TCF (23%) in the middle black and gray Selmier Shale, and 31 TCF (10%) in the basal black Blocher Shale. Water production concerns suggest that only the Grassy Creek Shale is likely to be commercially exploitable.

Cluff, R.M.; Cluff, S.G.; Murphy, C.M. [Discovery Group, Inc., Denver, CO (United States)

1996-12-31T23:59:59.000Z

129

Devonian shale gas resource assessment, Illinois basin  

SciTech Connect

In 1980 the National Petroleum Council published a resource appraisal for Devonian shales in the Appalachian, Michigan, and Illinois basins. Their Illinois basin estimate of 86 TCFG in-place has been widely cited but never verified nor revised. The NPC estimate was based on extremely limited canister off-gas data, used a highly simplified volumetric computation, and is not useful for targeting specific areas for gas exploration. In 1994 we collected, digitized, and normalized 187 representative gamma ray-bulk density logs through the New Albany across the entire basin. Formulas were derived from core analyses and methane adsorption isotherms to estimate total organic carbon (r[sup 2]=0.95) and gas content (r[sup 2]=0.79-0.91) from shale bulk density. Total gas in place was then calculated foot-by-foot through each well, assuming normal hydrostatic pressures and assuming the shale is gas saturated at reservoir conditions. The values thus determined are similar to peak gas contents determined by canister off-gassing of fresh cores but are substantially greater than average off-gas values. Greatest error in the methodology is at low reservoir pressures (or at shallow depths), however, the shale is generally thinner in these areas so the impact on the total resource estimate is small. The total New Albany gas in place was determined by integration to be 323 TCFG. Of this, 210 TCF (67%) is in the upper black Grassy Creek Shale, 72 TCF (23%) in the middle black and gray Selmier Shale, and 31 TCF (10%) in the basal black Blocher Shale. Water production concerns suggest that only the Grassy Creek Shale is likely to be commercially exploitable.

Cluff, R.M.; Cluff, S.G.; Murphy, C.M. (Discovery Group, Inc., Denver, CO (United States))

1996-01-01T23:59:59.000Z

130

90-day Interim Report on Shale Gas Production - Secretary of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

90-day Interim Report on Shale Gas Production - Secretary of Energy 90-day Interim Report on Shale Gas Production - Secretary of Energy Advisory Board 90-day Interim Report on Shale Gas Production - Secretary of Energy Advisory Board The Shale Gas Subcommittee of the Secretary of Energy Advisory Board is charged with identifying measures that can be taken to reduce the environmental impact and improve the safety of shale gas production. Natural gas is a cornerstone of the U.S. economy, providing a quarter of the country's total energy. Owing to breakthroughs in technology, production from shale formations has gone from a negligible amount just a few years ago to being almost 30 percent of total U.S. natural gas production. This has brought lower prices, domestic jobs, and the prospect of enhanced national security due to the potential of substantial

131

Natural Gas | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

January 26, 2012 January 26, 2012 The Office of Fossil Energy sponsored early research that refined more cost-effective and innovative production technologies for U.S. shale gas production -- such as directional drilling. By 2035, EIA projects that shale gas production will rise to 13.6 trillion cubic feet, representing nearly half of all U.S. natural gas production. | Image courtesy of the Office of Fossil Energy. Producing Natural Gas From Shale By 2035, EIA projects that shale gas production will rise to 13.6 trillion cubic feet. When you consider that 1 tcf of natural gas is enough to heat 15 million homes for one year, the importance of this resource to the nation becomes obvious. January 26, 2012 Natural Gas Production and U.S. Oil Imports Take a look at the Energy Information Administration's projections for

132

Shale Gas Production: Potential versus Actual GHG Emissions  

E-Print Network (OSTI)

Estimates of greenhouse gas (GHG) emissions from shale gas production and use are controversial. Here we assess the level of GHG emissions from shale gas well hydraulic fracturing operations in the United States during ...

O'Sullivan, Francis

133

The Influence of Shale gas on U.S. Energy and Environmental Policy  

E-Print Network (OSTI)

The emergence of U.S. shale gas resources to economic viability affects the nation’s energy outlook and the expected role of natural gas in climate policy. Even in the face of the current shale gas boom, however, questions ...

Jacoby, H.D.

134

DOE-Funded Primer Underscores Technology Advances, Challenges of Shale Gas  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DOE-Funded Primer Underscores Technology Advances, Challenges of DOE-Funded Primer Underscores Technology Advances, Challenges of Shale Gas Development DOE-Funded Primer Underscores Technology Advances, Challenges of Shale Gas Development April 14, 2009 - 1:00pm Addthis Washington, D.C. - The U.S. Department of Energy (DOE) announces the release of "Modern Shale Gas Development in the United States: A Primer." The Primer provides regulators, policy makers, and the public with an objective source of information on the technology advances and challenges that accompany deep shale gas development. Natural gas production from hydrocarbon rich deep shale formations, known as "shale gas," is one of the most quickly expanding trends in onshore domestic oil and gas exploration. The lower 48 states have a wide

135

Technically recoverable Devonian shale gas in Ohio  

SciTech Connect

The technically recoverable gas from Devonian shale (Lower and Middle Huron) in Ohio is estimated to range from 6.2 to 22.5 Tcf, depending on the stimulation method and pattern size selected. This estimate of recovery is based on the integration of the most recent data and research on the Devonian Age gas-bearing shales of Ohio. This includes: (1) a compilation of the latest geologic and reservoir data for the gas in-place; (2) analysis of the key productive mechanisms; and, (3) examination of alternative stimulation and production strategies for most efficiently recovering this gas. Beyond a comprehensive assembly of the data and calculation of the technically recoverable gas, the key findings of this report are as follows: a substantial volume of gas is technically recoverable, although advanced (larger scale) stimulation technology will be required to reach economically attractive gas production rates in much of the state; well spacing in certain of the areas can be reduced by half from the traditional 150 to 160 acres per well without severely impairing per-well gas recovery; and, due to the relatively high degree of permeability anisotropy in the Devonian shales, a rectangular, generally 3 by 1 well pattern leads to optimum recovery. Finally, although a consistent geological interpretation and model have been constructed for the Lower and Middle Huron intervals of the Ohio Devonian shale, this interpretation is founded on limited data currently available, along with numerous technical assumptions that need further verification. 11 references, 21 figures, 32 tables.

Kuushraa, V.A.; Wicks, D.E.; Sawyer, W.K.; Esposito, P.R.

1983-07-01T23:59:59.000Z

136

Shale Gas Production: Potential versus Actual GHG Emissions  

E-Print Network (OSTI)

Shale Gas Production: Potential versus Actual GHG Emissions Francis O'Sullivan and Sergey Paltsev://globalchange.mit.edu/ Printed on recycled paper #12;1 Shale Gas Production: Potential versus Actual GHG Emissions Francis O'Sullivan* and Sergey Paltsev* Abstract Estimates of greenhouse gas (GHG) emissions from shale gas production and use

137

Natural Gas  

Science Journals Connector (OSTI)

30 May 1974 research-article Natural Gas C. P. Coppack This paper reviews the world's existing natural gas reserves and future expectations, together with natural gas consumption in 1972, by main geographic...

1974-01-01T23:59:59.000Z

138

Civil society research and Marcellus Shale natural gas development: results of a survey of volunteer water monitoring organizations  

Science Journals Connector (OSTI)

This paper reports the results of a survey of civil society organizations that are monitoring surface water for impacts of Marcellus Shale development in Pennsylvania and New York. We ... ” of surface water quali...

Kirk Jalbert; Abby J. Kinchy…

2014-03-01T23:59:59.000Z

139

Gas Shale PlaysÂ… The Global Transition  

U.S. Energy Information Administration (EIA) Indexed Site

VIII. Poland EIA/ARI World Shale Gas and Shale Oil Resource Assessment VIII. Poland EIA/ARI World Shale Gas and Shale Oil Resource Assessment May 17, 2013 VIII-1 VIII. POLAND (INCLUDING LITHUANIA AND KALININGRAD) SUMMARY Poland has some of Europe's most favorable infrastructure and public support for shale development. The Baltic Basin in northern Poland remains the most prospective region with a relatively simple structural setting. The Podlasie and Lublin basins also have potential but are

140

Influence of the Drilling Mud Formulation Process on the Bacterial Communities in Thermogenic Natural Gas Wells of the Barnett Shale  

Science Journals Connector (OSTI)

...number of problems that lead to significant costs for the oil and natural gas industries...acceptor and as a source of carbon and energy for microbial populations in drilling...Polyphasic analysis of Thermus isolates from geothermal areas in Iceland. Extremophiles 10...

Christopher G. Struchtemeyer; James P. Davis; Mostafa S. Elshahed

2011-05-20T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


141

Borehole Stability Analysis of Horizontal Drilling in Shale Gas Reservoirs  

Science Journals Connector (OSTI)

Serious wellbore instability occurs frequently during horizontal drilling in shale gas reservoirs. The conventional forecast model of in ... not suitable for wellbore stability analysis in laminated shale gas for...

Jun-Liang Yuan; Jin-Gen Deng; Qiang Tan; Bao-Hua Yu…

2013-09-01T23:59:59.000Z

142

Drilling into controversy: the educational complexity of shale gas development  

Science Journals Connector (OSTI)

Potential development of shale gas presents a complicated and controversial education problem. ... the concepts necessary for understanding the development of shale gas within the energy system as a complex, ... ...

Joseph A. Henderson; Don Duggan-Haas

2014-03-01T23:59:59.000Z

143

Barnett Shale Municipal Oil and Gas Ordinance Dynamics: A Spatial Perspective  

E-Print Network (OSTI)

with the recent optimization of horizontal drilling, has substantially increased United States oil and gas production. Hydrocarbon firms perfected and use hydraulic fracturing on the Barnett Shale in North Texas; due to the nature of the formation, gas companies...

Murphy, Trey Daniel-Aaron

2013-09-27T23:59:59.000Z

144

Evaluation of Lower Cambrian Shale in Northern Guizhou Province, South China: Implications for Shale Gas Potential  

Science Journals Connector (OSTI)

The overall minerals are similar to those present in the Ohio and Woodford/Barnett shales (west Texas), which have successfully produced commercial shale gas. ... Adsorption of gases in multimolecular layers ...

Shuangbiao Han; Jinchuan Zhang; Yuxi Li; Brian Horsfield; Xuan Tang; Wenli Jiang; Qian Chen

2013-05-07T23:59:59.000Z

145

The Natural Gas Advantage  

Science Journals Connector (OSTI)

Environmental think-tank leaders and the new energy secretary are singing the praises of the ever-expanding U.S. natural gas bonanza, but at the same time, they worry about permanent dependence on this fossil fuel. ... This flood of shale-based natural gas finds has been great for U.S. chemical companies because it is a cheap feedstock and fuel source. ... Equally important, it is also revising the greenhouse gas-climate change equation because, when burned to generate electricity, natural gas produces the same electrical output as coal but emits half the amount of carbon dioxide. ...

JEFF JOHNSON

2013-06-24T23:59:59.000Z

146

Shale Gas and the Environment: Critical Need for a  

E-Print Network (OSTI)

Shale Gas and the Environment: Critical Need for a Government­University­Industry Research Initiative P O L I C Y M A K E R G U I D E #12;Shale gas production is increasing at a rapid rate initiative is needed to fill critical gaps in knowledge at the interface of shale gas development

McGaughey, Alan

147

Study of Multi-scale Transport Phenomena in Tight Gas and Shale Gas Reservoir Systems  

E-Print Network (OSTI)

. These challenges have impeded efficient economic development of shale resources. New fundamental insights and tools are needed to improve the state of shale gas development. Few attempts have been made to model the compositional behavior of fluids in shale gas...

Freeman, Craig Matthew

2013-11-25T23:59:59.000Z

148

Spatial and Temporal Impacts on Water Consumption in Texas from Shale Gas Development and Use  

Science Journals Connector (OSTI)

Spatial and Temporal Impacts on Water Consumption in Texas from Shale Gas Development and Use ... Despite the water intensity of hydraulic fracturing, recent life cycle analyses have concluded that increased shale gas development will lead to net decreases in water consumption if the increased natural gas production is used at natural gas combined cycle power plants, shifting electricity generation away from coal-fired steam cycle power plants. ... This work expands on these studies by estimating the spatial and temporal patterns of changes in consumptive water use in Texas river basins during a period of rapid shale gas development and use in electricity generation from August 2008 through December 2009. ...

Adam P. Pacsi; Kelly T. Sanders; Michael E. Webber; David T. Allen

2014-06-24T23:59:59.000Z

149

Modern Devonian shale gas search starting in southwestern Indiana  

SciTech Connect

The New Albany shale of southwestern Indiana is a worthwhile exploration and exploitation objective. The technical ability to enhance natural fractures is available, the drilling depths are shallow, long term gas reserves are attractive, markets are available, drilling costs are reasonable, risks are very low, multiple drilling objectives are available, and the return on investment is good. Indiana Geological Survey records are well organized, accessible, and easy to use. The paper describes the New Albany shale play, play size, early exploration, geologic setting, completion techniques, and locating prime areas.

Minihan, E.D.; Buzzard, R.D. (Minihan/Buzzard Consulting Firm, Fort Worth, TX (United States))

1995-02-27T23:59:59.000Z

150

Shale we look for gas?............................................................................. 1 The Marcellus shale--An old "new" gas reservoir in Pennsylvania ............ 2  

E-Print Network (OSTI)

#12;CONTENTS Shale we look for gas?............................................................................. 1 The Marcellus shale--An old "new" gas reservoir in Pennsylvania ............ 2 Meet the staff, the contour interval should be 6 inches. #12;STATE GEOLOGIST'S EDITORIAL Shale We Look For Gas? Recently, you

Boyer, Elizabeth W.

151

Shale-gas extraction faces growing public and regulatory challenges  

Science Journals Connector (OSTI)

Two federal agencies are scrutinizing the shale-gas industry and its use of “fracking ” but gas producers insist that state regulators provide sufficient environmental oversight.

David Kramer

2011-01-01T23:59:59.000Z

152

Gas Research Institute improved fracturing. Unconventional natural gas program, eastern devonian shales diagnostic program: Black No. 1 well experiment results. Third quarterly report, October 1979-December 1979  

SciTech Connect

During the last quarter of 1979, Sandia National Laboratories participated in an experiment with Thurlow Weed and Associates and the Morgantown Energy Technology Center. This Devonian Shale gas stimulation experiment was conducted in an area north of Columbus, Ohio. One purpose of the experiment was to apply the diagnostic instrumentation that is available for fracture mapping and characterization to increase our understanding of the stimulation technique. The induced fracture apparently followed a pre-existing fracture vertically from the borehole with an orientation of the N 62/sup 0/ E and in the latter stages of the stimulation turned into a shallower horizontal fracture. This fracture behavior was confirmed by several diagnostic analyses and demonstrates the insight that can be gained by fully instrumented stimulation experiments.

Schuster, C.L. (ed.)

1980-02-01T23:59:59.000Z

153

Process Design and Integration of Shale Gas to Methanol  

E-Print Network (OSTI)

Recent breakthroughs in horizontal drilling and hydraulic fracturing technology have made huge reservoirs of previously untapped shale gas and shale oil formations available for use. These new resources have already made a significant impact...

Ehlinger, Victoria M.

2013-02-04T23:59:59.000Z

154

Shale gas development impacts on surface water quality in Pennsylvania  

Science Journals Connector (OSTI)

...accept shale gas waste) upstream...Compliance System and Integrated Compliance Information System, with the...recall that we control for pre-cipitation...model results. Waste Treatment Regulatory...wastewater treatment plants to treat shale...

Sheila M. Olmstead; Lucija A. Muehlenbachs; Jhih-Shyang Shih; Ziyan Chu; Alan J. Krupnick

2013-01-01T23:59:59.000Z

155

Multiscale, Multiphysics Network Modeling of Shale Matrix Gas Flows  

Science Journals Connector (OSTI)

We present a pore network model to determine the permeability of shale gas matrix. Contrary to the conventional reservoirs, ... morphology of the pores, the permeability in shale depends on pressure as well. In a...

Ayaz Mehmani; Maša Prodanovi?; Farzam Javadpour

2013-09-01T23:59:59.000Z

156

Status and outlook for shale gas and tight oil development in the U.S.  

Gasoline and Diesel Fuel Update (EIA)

Deloitte Energy Conference Deloitte Energy Conference May 21, 2013 | Washington, DC By Adam Sieminski, Administrator U.S. Shale Gas 2 Adam Sieminski , Deloitte, May 21, 2013 Domestic production of shale gas has grown dramatically over the past few years Adam Sieminski , Deloitte, May 21, 2013 3 shale gas production (dry) billion cubic feet per day Sources: LCI Energy Insight gross withdrawal estimates as of March 2013 and converted to dry production estimates with EIA-calculated average gross-to-dry shrinkage factors by state and/or shale play. Shale gas leads growth in total gas production through 2040 to reach half of U.S. output 4 U.S. dry natural gas production trillion cubic feet Source: EIA, Annual Energy Outlook 2013

157

Oil shale retorting with steam and produced gas  

SciTech Connect

This patent describes a process for retorting oil shale in a vertical retort. It comprises introducing particles of oil shale into the retort, the particles of oil shale having a minimum size such that the particles are retained on a screen having openings 1/4 inch in size; contacting the particles of oil shale with hot gas to heat the particles of oil shale to a state of pyrolysis, thereby producing retort off-gas; removing the off-gas from the retort; cooling the off-gas; removing oil from the cooled off-gas; separating recycle gas from the off-gas, the recycle gas comprising steam and produced gas, the steam being present in amount, by volume, of at least 50% of the recycle gas so as to increase the yield of sand oil; and heating the recycle gas to form the hot gas.

Merrill, L.S. Jr.; Wheaton, L.D.

1991-08-20T23:59:59.000Z

158

Future of Natural Gas  

Office of Environmental Management (EM)

technology is improving - Producers are drilling in liquids rich gas and crude oil shale plays due to lower returns on dry gas production - Improved well completion time...

159

Natural Gas Industrial Price  

Annual Energy Outlook 2012 (EIA)

Power Price Gross Withdrawals Gross Withdrawals From Gas Wells Gross Withdrawals From Oil Wells Gross Withdrawals From Shale Gas Wells Gross Withdrawals From Coalbed Wells...

160

The impact of diffusion type on multiscale discrete fracture model numerical simulation for shale gas  

Science Journals Connector (OSTI)

Abstract The development of unconventional gas reservoirs represents totally distinctive characteristics as compared with the conventional reservoirs. The complex pore structure in shale reservoir determines its special flow mechanism, which can be divided into several categories according to the size and type of pores- non Darcy flow, gas slippage, adsorption-desorption and gas diffusion effect. Based on the gas molecules diffusion form in porous media and combining with the multi-scale distribution structural characteristics of shale gas reservoirs, the shale gas diffusion mechanisms in the shale reservoir space including the diffusion of dissolved gases in the organic kerogen and the diffusion of free gas in the nanopores are analyzed in this paper. Meanwhile, the diffusion in the nanopores consists of Knudsen diffusion (KN ? 10), Fick diffusion (KN ? 0.1) and transition diffusion (0.1 shale gas flow in matrix and fracture networks, and also for their mass transfer in between without neglecting its varying-scale nature following the concept of discrete fracture network (DFN). In addition, we also investigate the different diffusion mechanisms' influences on the production and pressure in the tight shale gas reservoir. Ultimately, concluding that the gas diffusion mechanisms in micro-and nano-scale matrix block have a greater impact on the distribution of shale gas production (especially the production at early time) and reservoir pressure.

Lidong Mi; Hanqiao Jiang; Junjian Li

2014-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


161

U.S. Shale Gas and Shale Oil Plays Review of Emerging Resources:  

Gasoline and Diesel Fuel Update (EIA)

Shale Gas and Shale Oil Plays Shale Gas and Shale Oil Plays Review of Emerging Resources: July 2011 www.eia.gov U.S. Depa rtment of Energy W ashington, DC 20585 This page inTenTionally lefT blank The information presented in this overview is based on the report Review of Emerging Resources: U.S. Shale Gas and Shale Oil Plays, which was prepared by INTEK, Inc. for the U.S. Energy Information Administration (EIA), the statistical and analytical agency within the U.S. Department of Energy. The full report is attached. By law, EIA's data, analyses, and forecasts are independent of approval by any other officer or employee of the United States Government. The views in this report therefore should not be construed as representing those of the Department of Energy or other Federal agencies.

162

EIA - All Natural Gas Analysis  

Gasoline and Diesel Fuel Update (EIA)

All Natural Gas Analysis All Natural Gas Analysis 2010 Peaks, Plans and (Persnickety) Prices This presentation provides information about EIA's estimates of working gas peak storage capacity, and the development of the natural gas storage industry. Natural gas shale and the need for high deliverability storage are identified as key drivers in natural gas storage capacity development. The presentation also provides estimates of planned storage facilities through 2012. Categories: Prices, Storage (Released, 10/28/2010, ppt format) U.S Natural Gas Imports and Exports: 2009 This report provides an overview of U.S. international natural gas trade in 2009. Natural gas import and export data, including liquefied natural gas (LNG) data, are provided through the year 2009 in Tables SR1-SR9. Categories: Imports & Exports/Pipelines (Released, 9/28/2010, Html format)

163

Life Cycle Greenhouse Gas Emissions and Freshwater Consumption of Marcellus Shale Gas  

Science Journals Connector (OSTI)

Life Cycle Greenhouse Gas Emissions and Freshwater Consumption of Marcellus Shale Gas ... We present results of a life cycle assessment (LCA) of Marcellus shale gas used for power generation. ... The analysis employs the most extensive data set of any LCA of shale gas to date, encompassing data from actual gas production and power generation operations. ...

Ian J. Laurenzi; Gilbert R. Jersey

2013-04-02T23:59:59.000Z

164

Mixed Integer Model Predictive Control of Multiple Shale Gas Wells.  

E-Print Network (OSTI)

?? Horizontal wells with multistage hydraulic fracturing are today the most important drilling technology for shale gas extraction. Considered unprofitable before, the production has now… (more)

Nordsveen, Espen T

2012-01-01T23:59:59.000Z

165

Analysis of the potential impacts of shale gas development.  

E-Print Network (OSTI)

??The objective of this thesis is to analyze the considerations regarding the environmental impacts of shale gas development by a rational, objective, fact-based assessment. Flowback… (more)

Yi, Hyukjoong

2013-01-01T23:59:59.000Z

166

,"Louisiana Shale Gas Proved Reserves, Reserves Changes, and...  

U.S. Energy Information Administration (EIA) Indexed Site

Shale Gas Proved Reserves, Reserves Changes, and Production" ,"Click worksheet name or tab at bottom for data" ,"Worksheet Name","Description"," Of Series","Frequency","Latest...

167

Shale Gas – Environmental Aspects, Technical Parameters and Explorations in TIMER.  

E-Print Network (OSTI)

??Over the last ten years the shale gas industry in North America has flourished. The ensuing economic success has inspired other countries to start investigating… (more)

Deijns, J.

2014-01-01T23:59:59.000Z

168

,"Kentucky Shale Gas Proved Reserves, Reserves Changes, and Production...  

U.S. Energy Information Administration (EIA) Indexed Site

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Kentucky Shale Gas Proved Reserves, Reserves Changes, and Production",10,"Annual",2012,"6302007"...

169

,"West Virginia Shale Gas Proved Reserves, Reserves Changes,...  

U.S. Energy Information Administration (EIA) Indexed Site

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","West Virginia Shale Gas Proved Reserves, Reserves Changes, and Production",10,"Annual",2012,"6302007"...

170

Secretary of Energy Advisory Board Subcommittee (SEAB) on Shale Gas  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

of Energy Advisory Board Subcommittee (SEAB) on Shale Gas of Energy Advisory Board Subcommittee (SEAB) on Shale Gas Production Posts Draft Report Secretary of Energy Advisory Board Subcommittee (SEAB) on Shale Gas Production Posts Draft Report November 10, 2011 - 1:12pm Addthis WASHINGTON, D.C. - The Secretary of Energy Advisory Board Subcommittee (SEAB) on Shale Gas Production released its second and final ninety-day report reviewing the progress that has been made in implementing the twenty recommendations in its initial report of August 18, 2011. The Subcommittee was tasked with producing a report on the immediate steps that can be taken to improve the safety and environmental performance of shale gas development. The Subcommittee believes that these recommendations, if implemented, would help to assure that the nation's considerable shale

171

Natural Gas Program Archive (Disk1)  

NLE Websites -- All DOE Office Websites (Extended Search)

Eastern U.S. Gas Eastern U.S. Gas Shales Eastern U.S. Gas Eastern U.S. Gas Shales Shales Program Program This DVD contains information related to research and development (R&D) undertaken by the U.S. Department of Energy (DOE) during the 1976-1995 time period. This R&D focused on improving industry understanding of ways to locate and produce natural gas from the fractured organic gas shales of the Eastern U.S. A second DVD is also available that includes similar information related to the five other R&D programs targeting unconventional natural gas during roughly the same time frame: Western U.S. Gas Sands (1977-1992), Methane Recovery from Coalbeds (1978-1982), Methane Hydrates (1982-1992), Deep Source Gas Project (1982-1992), and Secondary Gas Recovery (1987-1995). The following items are found on this DVD.

172

Conceptual study of thermal stimulation in shale gas formations  

Science Journals Connector (OSTI)

Abstract Shale gas formations have become a major source of energy in recent years. Developments in hydraulic fracturing technology have made these reservoirs more accessible and productive. Apart from other dissimilarities from conventional gas reservoirs, one major difference is that a considerable amount of gas produced from these shale gas formations comes from desorption. Up to 85% of the total gas within shale can be found as an adsorbed phase on clay and kerogen, so how much adsorbed gas can be produced will have significant impact on ultimate gas recovery. The Langmuir isotherm has been widely used in industry to describe the pressure dependence of adsorbed gas. However, temperature dependent adsorption behavior and its major implications for evaluating thermal stimulation as a recovery method for shale reservoirs have not been thoroughly explored. Therefore, in order to design and analyze the thermal treatment of shale gas formations successfully, it is crucial to understand the effects of fracture heating on the shale gas adsorption and desorption phenomenon, and how can we exploit such effects to enhance shale gas recovery from hydraulically fractured reservoirs. Even though numerous research efforts have been focused on thermal recovery of shale oil, its possible application to shale gas has not been investigated. In this research, we propose a method to evaluate desorbed gas as a function of pressure and temperature in shale formations, by regression of a Bi-Langmuir model on Langmuir isotherm data. We have developed a fully coupled unconventional reservoir simulator, which is capable of capturing real gas flow in the shale matrix and in the hydraulic fracture by accounting for the effects of gas desorption and diffusion, as well as the temperature diffusion process within the matrix. This simulator enables us to investigate the effects of fracture heating on the shale gas desorption phenomenon on the global well performance and recovery. The results of this study show, for the first time in a rigorous way, that by increasing the temperature within the fracture, shale gas recovery can be improved. We have rationalized and quantified relations between the adsorption/desorption fundamental phenomena and stimulation temperature, fracture spacing, reservoir permeability and bottom hole pressure. The thermal properties of shale formations only have limited impacts on long term production. The results of this study can provide a guidance to develop a strategy to design thermal treatment in hydraulically fractured shale formations and propose the degree of thermal stimulation temperature required in a fracture to promote an economically viable return on production.

HanYi Wang; Omobola Ajao; Michael J. Economides

2014-01-01T23:59:59.000Z

173

The flux of radionuclides in flowback fluid from shale gas exploitation  

Science Journals Connector (OSTI)

This study considers the flux of radioactivity in flowback fluid from shale gas development in three areas: the Carboniferous, Bowland Shale, UK; the Silurian Shale, Poland; and the Carboniferous Barnett Shale, U...

S. Almond; S. A. Clancy; R. J. Davies…

2014-11-01T23:59:59.000Z

174

Fractured gas reservoirs in the Devonian shale of the Illinois and Appalachian basins  

SciTech Connect

The Devonian and Lower Mississippian black shale sequence of Kentucky includes the New Albany Shale of Illinois basin and the Ohio Shale of the Appalachian basin. Fractured reservoirs in the Ohio Shale contain a major gas resource, but have not been so prolific in the New Albany Shale. The authors propose two models of fractured shale reservoirs in both the Illinois and the Appalachian basins, to be tested with gas production data. (1) Where reactivated basement faults have propagated to the surface, the lack of an effective seal has prevented the development of overpressure. The resulting fracture system is entirely tectonic is origin, and served mainly as a conduit for gas migration from the basin to the surface. Gas accumulations in such reservoirs typically are small and underpressured. (2) Where basement faults have been reactivated but have not reached the surface, a seal on the fractured reservoir is preserved. In areas where thermal maturity has been adequate, overpressuring due to gas generation resulted in a major extension of the fracture system, as well as enhanced gas compression and adsorption. Such gas accumulations are relatively large. Original overpressuring has been largely lost, due both to natural depletion and to uncontrolled production. The relative thermal immaturity of the Illinois basin accounts for the scarcity of the second type of fractured reservoir and the small magnitude of the New Albany Shale gas resource.

Hamilton-Smith, T.; Walker, D.; Nuttall, B. (Kentucky Geological Survey, Lexington (United States))

1991-08-01T23:59:59.000Z

175

Emerging Shale Gas Revolution in China  

Science Journals Connector (OSTI)

? Agri-Environment Branch, Agri-Food and Biosciences Institute, Belfast BT9 5PX, U.K. ... The US therefore has a world lead in ‘fracking’ techniques and also research on the potential adverse environmental consequences of this technology. ... China is now embarking upon substantial development of shale gas extraction but the question of major public concern is whether or not the Chinese government will try to learn from the US experience not only to benefit from the new engineering techniques but also to minimize the negative impacts of this technology on environmental and human health. ...

Yunhua Chang; Xuejun Liu; Peter Christie

2012-11-02T23:59:59.000Z

176

Remote Gas Well Monitoring Technology Applied to Marcellus Shale Site |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Remote Gas Well Monitoring Technology Applied to Marcellus Shale Remote Gas Well Monitoring Technology Applied to Marcellus Shale Site Remote Gas Well Monitoring Technology Applied to Marcellus Shale Site February 10, 2012 - 12:00pm Addthis Washington, DC - A technology to remotely monitor conditions at energy-rich Marcellus Shale gas wells to help insure compliance with environmental requirements has been developed through a research partnership funded by the U.S. Department of Energy (DOE). NETL-RUA researcher Dr. Michael McCawley hasdeveloped a technology to remotely monitor theenvironment around energy-rich Marcellus Shale gas wells. Photo courtesy of West Virginia University.The technology - which involves three wireless monitoring modules to measure volatile organic compounds, dust, light and sound - is currently being tested at a Marcellus

177

Russia’s Natural Gas Export Potential up to 2050  

E-Print Network (OSTI)

Recent increases in natural gas reserve estimates and advances in shale gas technology make natural gas a fuel with good prospects to serve a bridge to a low-carbon world. Russia is an important energy supplier as it holds ...

Paltsev, Sergey

178

Gas potential of new Albany shale (Devonian-Mississippian) in the Illinois Basin  

SciTech Connect

A study to update and evaluate publicly available data relating to present and potential gas production from New Albany Shale in the Illinois basin was conducted cooperatively by the Indiana. Illinois, and Kentucky geological surveys (Illinois Basin Consortium), and was partially funded by the Gas Research Institute. Deliverables included a plate of stratigraphic cross sections and six basin-wide maps at a scale of 1:1,000,000. The New Albany Shale is an organic-rich brownish black shale present throughout the Illinois basin. Gas potential of the New Albany Shale may be great because it contains an estimated 86 tcf of natural gas and has produced modest volumes since 1858 from more than 60 fields, mostly in the southeastern part of the basin. Reservoir beds include organic-rich shales of the Grassy Creek (Shale), Clegg Creek, and Blocher (Shale) members. Limited geologic and carbon isotope data indicate that the gas is indigenous and thermogenic. T[sub max] data suggest that the gas generation begins at R[sub o] values of 0.53% and may begin at R[sub 0] values as low as 0.41% in some beds. New Albany Shale reservoirs contain both free gas in open-pore space and gas adsorbed on clay and kerogen surfaces. Natural fracturing is essential for effective reservoir permeability. Fractures are most common near structures such as faults, flexures, and buried carbonate banks. Based on limited data, fractures and joints have preferred orientations of 45-225[degrees] and 135-315[degrees]. Commercial production requires well stimulation to connect the well bore with the natural fracture system and to prop open pressure-sensitive near-borehole fractures. Current stimulations employ hydraulic fracture treatments using nitrogen and foam, with sand as a propping agent.

Comer, J.B.; Hasenmueller, N.R. (Indiana Geological Survey, Bloomington, IN (United States)); Frankie, W.T. (Illinois State Geological Survey, Champaign, IL (United States)); Hamilton-Smith, T. (Kentucky Geological Survey, Lexington, KY (United States))

1993-08-01T23:59:59.000Z

179

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

,366 ,366 95,493 1.08 0 0.00 1 0.03 29,406 0.56 1,206 0.04 20,328 0.64 146,434 0.73 - Natural Gas 1996 Million Percent of Million Percent of Cu. Feet National Total Cu. Feet National Total Net Interstate Movements: Industrial: Marketed Production: Vehicle Fuel: Deliveries to Consumers: Electric Residential: Utilities: Commercial: Total: South Carolina South Carolina 88. Summary Statistics for Natural Gas South Carolina, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ...........................................

180

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

0,216 0,216 50,022 0.56 135 0.00 49 1.67 85,533 1.63 8,455 0.31 45,842 1.45 189,901 0.95 - Natural Gas 1996 Million Percent of Million Percent of Cu. Feet National Total Cu. Feet National Total Net Interstate Movements: Industrial: Marketed Production: Vehicle Fuel: Deliveries to Consumers: Electric Residential: Utilities: Commercial: Total: M a r y l a n d Maryland 68. Summary Statistics for Natural Gas Maryland, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... NA NA NA NA NA Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 9 7 7 7 8 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 33 28 26 22 135 From Oil Wells ...........................................

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


181

Shale Natural Gas Reserves Sales  

Gasoline and Diesel Fuel Update (EIA)

563 1,685 22,694 2009-2011 563 1,685 22,694 2009-2011 Alaska 0 0 0 2009-2011 Lower 48 States 563 1,685 22,694 2009-2011 Alabama 0 0 2009-2010 Arkansas 3 336 6,087 2009-2011 California 0 2011-2011 San Joaquin Basin Onshore 0 2011-2011 Colorado 0 0 0 2009-2011 Kentucky 0 0 45 2009-2011 Louisiana 3 11 3,782 2009-2011 North 3 11 3,782 2009-2011 Michigan 0 553 682 2009-2011 Montana 2 1 42 2009-2011 New Mexico 0 0 0 2009-2011 East 0 0 0 2009-2011 West 0 0 0 2009-2011 North Dakota 1 28 115 2009-2011 Ohio 0 0 2009-2010 Oklahoma 0 0 1,591 2009-2011 Pennsylvania 0 163 209 2009-2011 Texas 554 580 9,926 2009-2011 RRC District 1 0 409 1,132 2009-2011 RRC District 2 Onshore 0 61 2010-2011 RRC District 3 Onshore 0 0 0 2009-2011 RRC District 4 Onshore 0 0 75 2009-2011

182

Shale Natural Gas Estimated Production  

Gasoline and Diesel Fuel Update (EIA)

1,293 2,116 3,110 5,336 7,994 2007-2011 1,293 2,116 3,110 5,336 7,994 2007-2011 Alaska 0 0 0 0 0 2007-2011 Lower 48 States 1,293 2,116 3,110 5,336 7,994 2007-2011 Alabama 0 0 0 0 2007-2010 Arkansas 94 279 527 794 940 2007-2011 California 101 2011-2011 San Joaquin Basin Onshore 101 2011-2011 Colorado 0 0 1 1 3 2007-2011 Kentucky 2 2 5 4 4 2007-2011 Louisiana 1 23 293 1,232 2,084 2007-2011 North 1 23 293 1,232 2,084 2007-2011 South Onshore 0 2011-2011 Michigan 148 122 132 120 106 2007-2011 Montana 12 13 7 13 13 2007-2011 New Mexico 2 0 2 6 9 2007-2011 East 2 0 1 3 5 2007-2011 West 0 0 1 3 4 2007-2011 North Dakota 3 3 25 64 95 2007-2011 Ohio 0 0 0 0 2007-2010 Oklahoma 40 168 249 403 476 2007-2011 Pennsylvania 1 1 65 396 1,068 2007-2011

183

Shale Natural Gas Reserves Adjustments  

U.S. Energy Information Administration (EIA) Indexed Site

90 7,579 1,584 526 2009-2012 Alaska 0 0 0 0 2009-2012 Lower 48 States 1,690 7,579 1,584 526 2009-2012 Alabama 0 0 2009-2010 Arkansas 2 63 655 -754 2009-2012 California 1 1...

184

Arizona - Natural Gas 2012 Million  

U.S. Energy Information Administration (EIA) Indexed Site

4 4 Arizona - Natural Gas 2012 Million Cu. Feet Percent of National Total Million Cu. Feet Percent of National Total Total Net Movements: - Industrial: Dry Production: Vehicle Fuel: Deliveries to Consumers: Residential: Electric Power: Commercial: Total Delivered: Table S3. Summary statistics for natural gas - Arizona, 2008-2012 2008 2009 2010 2011 2012 Number of Producing Gas Wells at End of Year 6 6 5 5 5 Production (million cubic feet) Gross Withdrawals From Gas Wells 523 711 183 168 117 From Oil Wells * * 0 0 0 From Coalbed Wells 0 0 0 0 0 From Shale Gas Wells 0

185

Occurrence of Multiple Fluid Phases Across a Basin, in the Same Shale Gas Formation – Eagle Ford Shale Example  

E-Print Network (OSTI)

Shale gas and oil are playing a significant role in US energy independence by reversing declining production trends. Successful exploration and development of the Eagle Ford Shale Play requires reservoir characterization, recognition of fluid...

Tian, Yao

2014-04-29T23:59:59.000Z

186

Shale gas rock characterization and 3D submicron pore network reconstruction .  

E-Print Network (OSTI)

??"Determining shale gas petrophysical properties is the cornerstone to any reservoir-management practice. Hitherto, conventional core analyses are inadequate to attain the petrophysical properties of shale… (more)

Elgmati, Malek, 1982-

2011-01-01T23:59:59.000Z

187

Assessment of Eagle Ford Shale Oil and Gas Resources  

E-Print Network (OSTI)

, and to assess Eagle Ford shale oil and gas reserves, contingent resources, and prospective resources. I first developed a Bayesian methodology to generate probabilistic decline curves using Markov Chain Monte Carlo (MCMC) that can quantify the reserves...

Gong, Xinglai

2013-07-30T23:59:59.000Z

188

Modern Shale Gas Development in the United States: A Primer  

Energy.gov (U.S. Department of Energy (DOE))

This Primer on Modern Shale Gas Development in the United States was commissioned through the Ground Water Protection Council (GWPC). It is an effort to provide sound technical information on and...

189

Miscellaneous States Shale Gas Production (Billion Cubic Feet...  

U.S. Energy Information Administration (EIA) Indexed Site

Production (Billion Cubic Feet) Miscellaneous States Shale Gas Production (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9 2000's 2...

190

Miscellaneous States Shale Gas Proved Reserves Revision Decreases...  

U.S. Energy Information Administration (EIA) Indexed Site

Decreases (Billion Cubic Feet) Miscellaneous States Shale Gas Proved Reserves Revision Decreases (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7...

191

Miscellaneous States Shale Gas Proved Reserves Sales (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Sales (Billion Cubic Feet) Miscellaneous States Shale Gas Proved Reserves Sales (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8 Year-9...

192

Miscellaneous States Shale Gas Proved Reserves Adjustments (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Adjustments (Billion Cubic Feet) Miscellaneous States Shale Gas Proved Reserves Adjustments (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7...

193

Fact-based communication: the Shale Gas Information Platform SHIP  

Science Journals Connector (OSTI)

In response to an increasingly expressed need for factual information, a science-based information web portal, the Shale Gas Information Platform SHIP, was developed. At the core of the project i...

Andreas Hübner; Brian Horsfield; Ingo Kapp

2013-12-01T23:59:59.000Z

194

Miscellaneous States Shale Gas Proved Reserves Revision Increases...  

U.S. Energy Information Administration (EIA) Indexed Site

Increases (Billion Cubic Feet) Miscellaneous States Shale Gas Proved Reserves Revision Increases (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7...

195

Miscellaneous States Shale Gas Proved Reserves New Field Discoveries...  

U.S. Energy Information Administration (EIA) Indexed Site

New Field Discoveries (Billion Cubic Feet) Miscellaneous States Shale Gas Proved Reserves New Field Discoveries (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4...

196

Miscellaneous States Shale Gas Proved Reserves Extensions (Billion...  

U.S. Energy Information Administration (EIA) Indexed Site

Extensions (Billion Cubic Feet) Miscellaneous States Shale Gas Proved Reserves Extensions (Billion Cubic Feet) Decade Year-0 Year-1 Year-2 Year-3 Year-4 Year-5 Year-6 Year-7 Year-8...

197

Impact of Shale Gas Development on Regional Water Quality  

Science Journals Connector (OSTI)

...human health and environmental impacts associated with the release...inadequately treated wastewater to the environment (66). In addition, spills...assess potential water quality impacts in the northeast (78, 79...shale gas extraction (54). Impacts from casing leakage, well...

R. D. Vidic; S. L. Brantley; J. M. Vandenbossche; D. Yoxtheimer; J. D. Abad

2013-05-17T23:59:59.000Z

198

North American Shale Gas | OSTI, US Dept of Energy, Office of Scientific  

Office of Scientific and Technical Information (OSTI)

North American Shale Gas North American Shale Gas Shale Gas Research in DOE Databases Energy Citations Database DOE Information Bridge Science.gov WorldWideScience.org More information DOE's Early Investment in Shale Gas Technology Producing Results Today (NETL) What is Shale Gas and why is it important? (EIA) Review of Emerging Resources: U.S. Shale Gas and Shale Oil Plays (EIA) Shale Gas: Applying Technology to Solve America's Energy Challenges (NETL brochure) Secretary of Energy Advisory Board Subcommittee (SEAB) on Shale Gas Production Posts Draft Report North American Shale Gas Source: U.S. Energy Information Administration based on data from various published studies. Visit the Science Showcase homepage. OSTI Homepage Mobile Gallery Subscribe to RSS OSTI Blog Get Widgets Get Alert Services

199

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

68,747 68,747 34,577 0.39 0 0.00 34 1.16 14,941 0.29 0 0.00 11,506 0.36 61,058 0.31 I d a h o Idaho 60. Summary Statistics for Natural Gas Idaho, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation.......................... 0 0 0 0 0 Vented

200

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

0 0 0 0.00 0 0.00 0 0.00 540 0.01 0 0.00 2,132 0.07 2,672 0.01 H a w a i i Hawaii 59. Summary Statistics for Natural Gas Hawaii, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation.......................... 0 0 0 0 0 Vented and Flared

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


201

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

483,052 483,052 136,722 1.54 6,006 0.03 88 3.00 16,293 0.31 283,557 10.38 41,810 1.32 478,471 2.39 F l o r i d a Florida 57. Summary Statistics for Natural Gas Florida, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 47 50 98 92 96 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 7,584 8,011 8,468 7,133 6,706 Total.............................................................. 7,584 8,011 8,468 7,133 6,706 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ...............

202

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

291,898 291,898 113,995 1.29 0 0.00 4 0.14 88,078 1.68 3,491 0.13 54,571 1.73 260,140 1.30 I o w a Iowa 63. Summary Statistics for Natural Gas Iowa, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation.......................... 0 0 0

203

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

Vehicle Fuel: Vehicle Fuel: Deliveries to Consumers: Electric Residential: Utilities: Commercial: Total: New England New England 36. Summary Statistics for Natural Gas New England, 1992-1996 Table 691,089 167,354 1.89 0 0.00 40 1.36 187,469 3.58 80,592 2.95 160,761 5.09 596,215 2.98 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................

204

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

29,693 29,693 0 0.00 0 0.00 6 0.20 17,290 0.33 0 0.00 16,347 0.52 33,644 0.17 District of Columbia District of Columbia 56. Summary Statistics for Natural Gas District of Columbia, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation..........................

205

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

42,980 42,980 14,164 0.16 0 0.00 1 0.03 9,791 0.19 23,370 0.86 6,694 0.21 54,020 0.27 D e l a w a r e Delaware 55. Summary Statistics for Natural Gas Delaware, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation..........................

206

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

-49,536 -49,536 7,911 0.09 49,674 0.25 15 0.51 12,591 0.24 3 0.00 12,150 0.38 32,670 0.16 North Dakota North Dakota 82. Summary Statistics for Natural Gas North Dakota, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 496 525 507 463 462 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 104 101 104 99 108 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 12,461 18,892 19,592 16,914 16,810 From Oil Wells ........................................... 47,518 46,059 43,640 39,760 38,906 Total.............................................................. 59,979 64,951 63,232 56,674 55,716 Repressuring ................................................

207

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

21,547 21,547 4,916 0.06 0 0.00 0 0.00 7,012 0.13 3 0.00 7,099 0.22 19,031 0.10 N e w H a m p s h i r e New Hampshire 77. Summary Statistics for Natural Gas New Hampshire, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation..........................

208

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

139,881 139,881 26,979 0.30 463 0.00 115 3.92 27,709 0.53 19,248 0.70 28,987 0.92 103,037 0.52 A r i z o n a Arizona 50. Summary Statistics for Natural Gas Arizona, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... NA NA NA NA NA Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 6 6 6 7 7 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 721 508 711 470 417 From Oil Wells ........................................... 72 110 48 88 47 Total.............................................................. 794 618 759 558 464 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease

209

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

Middle Middle Atlantic Middle Atlantic 37. Summary Statistics for Natural Gas Middle Atlantic, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 1,857 1,981 2,042 1,679 1,928 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 36,906 36,857 26,180 37,159 38,000 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 161,372 152,717 140,444 128,677 152,494 From Oil Wells ........................................... 824 610 539 723 641 Total.............................................................. 162,196 153,327 140,982 129,400 153,134 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed

210

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

386,690 386,690 102,471 1.16 0 0.00 43 1.47 142,319 2.72 5,301 0.19 98,537 3.12 348,671 1.74 M i n n e s o t a Minnesota 71. Summary Statistics for Natural Gas Minnesota, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation..........................

211

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

1,108,583 1,108,583 322,275 3.63 298 0.00 32 1.09 538,749 10.28 25,863 0.95 218,054 6.90 1,104,972 5.52 I l l i n o i s Illinois 61. Summary Statistics for Natural Gas Illinois, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... NA NA NA NA NA Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 382 385 390 372 370 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 337 330 323 325 289 From Oil Wells ........................................... 10 10 10 10 9 Total.............................................................. 347 340 333 335 298 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ...............

212

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

286,485 286,485 71,533 0.81 25 0.00 31 1.06 137,225 2.62 5,223 0.19 72,802 2.31 286,814 1.43 M i s s o u r i Missouri 73. Summary Statistics for Natural Gas Missouri, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... NA NA NA NA NA Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 5 8 12 15 24 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 27 14 8 16 25 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 27 14 8 16 25 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation..........................

213

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

411,951 411,951 100,015 1.13 0 0.00 5 0.17 114,365 2.18 45,037 1.65 96,187 3.05 355,609 1.78 Massachusetts Massachusetts 69. Summary Statistics for Natural Gas Massachusetts, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation..........................

214

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

226,798 226,798 104,124 1.17 0 0.00 0 0.00 58,812 1.12 2,381 0.09 40,467 1.28 205,783 1.03 North Carolina North Carolina 81. Summary Statistics for Natural Gas North Carolina, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 0 0 0 0 0 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 0 0 0 0 0 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 0 0 0 0 0 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 0 0 0 0 0 Repressuring ................................................ 0 0 0 0 0 Nonhydrocarbon Gases Removed ............... 0 0 0 0 0 Wet After Lease Separation..........................

215

Life Cycle Analysis on Greenhouse Gas (GHG) Emissions of Marcellus Shale Gas Supporting Information  

E-Print Network (OSTI)

Life Cycle Analysis on Greenhouse Gas (GHG) Emissions of Marcellus Shale Gas Supporting Information 1. GHG Emissions Estimation for Production of Marcellus Shale Gas 1.1 Preparation of Well Pad The greenhouse gas (GHG) emissions resulting from the preparation of well pad consist of two parts: the carbon

Jaramillo, Paulina

216

Oil and Gas CDT Structural and depositional controls on shale gas resources in  

E-Print Network (OSTI)

Oil and Gas CDT Structural and depositional controls on shale gas resources in the UK, #12;environmental geoscience for oil and gas) are all possibles. References & Further Reading https), http://www.bgs.ac.uk/staff/profiles/0688.html · Laura Banfield (BP) Key Words Shale gas, Bowland

Henderson, Gideon

217

General screening criteria for shale gas reservoirs and production data analysis of Barnett shale  

E-Print Network (OSTI)

Shale gas reservoirs are gaining importance in United States as conventional oil and gas resources are dwindling at a very fast pace. The purpose of this study is twofold. First aim is to help operators with simple screening criteria which can help...

Deshpande, Vaibhav Prakashrao

2009-05-15T23:59:59.000Z

218

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

7, 2011 at 2:00 P.M. 7, 2011 at 2:00 P.M. Next Release: Thursday, April 14, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, April 6, 2011) Continuing last weekÂ’s net decline, the Henry Hub price this week fell 8 cents from $4.25 per million Btu (MMBtu) on Wednesday, March 30, to $4.17 per MMBtu on Wednesday, April 6. At the New York Mercantile Exchange, the price of the near-month (May 2011) contract fell from $4.355 per MMBtu to $4.146 per MMBtu. Working natural gas in storage fell to 1,579 billion cubic feet (Bcf) as of Friday, April 1, according to EIAÂ’s Weekly Natural Gas Storage Report.The natural gas rotary rig count, as reported by Baker Hughes Incorporated, rose by 11 to 891. A new study released by EIA estimated technically recoverable shale

219

Arguments Pro and Against Shale Gas Exploitation Worldwide and in Romania  

Science Journals Connector (OSTI)

Abstract Shale gas emerges as a new and important source of energy for the post - industrial world. It is assumed that countries that have considerable shale deposits will be better placed in the 21st century competition between states. The United States have one of biggest deposits of shale gas, underscores a domestic production “boom” and is on the verge of becoming a gas exporter in Western Europe. The United States still has few capabilities to export shale gas to Europe. It would have to build new liquefaction facilities to do that. On the other side, Russia is, for the moment, the energy giant of Europe, its massive exports of natural gas to the area, acting as a powerful political leverage especially on the eastern and central European space. But in Europe, at least 10 countries are believed to hold significant shale gas reserves; among them, Romania is assumed to have huge unconventional gas reserves, whose exploitation could ensure its medium-term energy independence, and combined with newly discovered gas in the Black Sea, and energy efficiency improvement measures, provide not only the energy independence but transform Romania into a regional power pole. The interesting fact is how each country in Europe, will choose to convert resources in shale gas reserves and to exploit them to the benefit of the economy, the society and the environment. Besides some clear positive effects (decreasing energy imports, creating a stronger negotiating position against external (fossil fuel) suppliers and diversifying Europe's energy mix) will shale gas extraction succeed to decrease gas bill for population, by reducing prices, or will it stick only to royalties and fees collection, as well as with some local social and economic effects, with the consequence of prolonged pollution or even potentially devastating effects on the environment? In order that gas-gas competition begins to act effectively and exert a strong competitive pressure on gas import prices in Europe (by changing their base and weaken the link with oil prices, up to a possible decoupling of it) it is necessary that Europe will benefit from a big inflow of gas supplies, shale gas included, from different sources than

Mariana Papatulica

2014-01-01T23:59:59.000Z

220

Pressure Transient Analysis and Production Analysis for New Albany Shale Gas Wells  

E-Print Network (OSTI)

Shale gas has become increasingly important to United States energy supply. During recent decades, the mechanisms of shale gas storage and transport were gradually recognized. Gas desorption was also realized and quantitatively described. Models...

Song, Bo

2010-10-12T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


221

The shale gas potential of Tournaisian, Visean, and Namurian black shales in North Germany: baseline parameters in a geological context  

Science Journals Connector (OSTI)

Carboniferous black mudrocks with known petroleum potential occur throughout Northern Germany. However, despite numerous boreholes exploring for conventional hydrocarbons, the potential for shale gas resources re...

Dorit I. Kerschke; Hans-Martin Schulz

2013-12-01T23:59:59.000Z

222

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

73,669 73,669 141,300 1.59 221,822 1.12 3 0.10 46,289 0.88 33,988 1.24 31,006 0.98 252,585 1.26 A r k a n s a s Arkansas 51. Summary Statistics for Natural Gas Arkansas, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 1,750 1,552 1,607 1,563 1,470 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 3,500 3,500 3,500 3,988 4,020 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 171,543 166,273 161,967 161,390 182,895 From Oil Wells ........................................... 39,364 38,279 33,446 33,979 41,551 Total.............................................................. 210,906 204,552 195,413 195,369 224,446 Repressuring ................................................

223

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

-1,080,240 -1,080,240 201,024 2.27 1,734,887 8.78 133 4.54 76,629 1.46 136,436 4.99 46,152 1.46 460,373 2.30 O k l a h o m a Oklahoma 84. Summary Statistics for Natural Gas Oklahoma, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 13,926 13,289 13,487 13,438 13,074 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 28,902 29,118 29,121 29,733 29,733 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 1,674,405 1,732,997 1,626,858 1,521,857 1,467,695 From Oil Wells ........................................... 342,950 316,945 308,006 289,877 267,192 Total.............................................................. 2,017,356 2,049,942 1,934,864

224

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

7,038,115 7,038,115 3,528,911 39.78 13,646,477 69.09 183 6.24 408,861 7.80 1,461,718 53.49 281,452 8.91 5,681,125 28.40 West South Central West South Central 42. Summary Statistics for Natural Gas West South Central, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 87,198 84,777 88,034 88,734 62,357 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 92,212 95,288 94,233 102,525 102,864 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 11,599,913 11,749,649 11,959,444 11,824,788 12,116,665 From Oil Wells ........................................... 2,313,831 2,368,395 2,308,634 2,217,752 2,151,247 Total..............................................................

225

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

77,379 77,379 94,481 1.07 81,435 0.41 8 0.27 70,232 1.34 1,836 0.07 40,972 1.30 207,529 1.04 K e n t u c k y Kentucky 65. Summary Statistics for Natural Gas Kentucky, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 1,084 1,003 969 1,044 983 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 12,483 12,836 13,036 13,311 13,501 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 79,690 86,966 73,081 74,754 81,435 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. 79,690 86,966 73,081 74,754 81,435 Repressuring ................................................

226

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

-67,648 -67,648 75,616 0.85 480,828 2.43 0 0.00 16,720 0.32 31,767 1.16 29,447 0.93 153,549 0.77 Pacific Noncontiguous Pacific Noncontiguous 45. Summary Statistics for Natural Gas Pacific Noncontiguous, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 9,638 9,907 9,733 9,497 9,294 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 112 113 104 100 102 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 198,603 190,139 180,639 179,470 183,747 From Oil Wells ........................................... 2,427,110 2,588,202 2,905,261 3,190,433 3,189,837 Total.............................................................. 2,625,713 2,778,341

227

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

-310,913 -310,913 110,294 1.24 712,796 3.61 2 0.07 85,376 1.63 22,607 0.83 57,229 1.81 275,508 1.38 K a n s a s Kansas 64. Summary Statistics for Natural Gas Kansas, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 9,681 9,348 9,156 8,571 7,694 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 18,400 19,472 19,365 22,020 21,388 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 580,572 605,578 628,900 636,582 629,755 From Oil Wells ........................................... 79,169 82,579 85,759 86,807 85,876 Total.............................................................. 659,741 688,157 714,659 723,389 715,631 Repressuring ................................................

228

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

819,046 819,046 347,043 3.91 245,740 1.24 40 1.36 399,522 7.62 32,559 1.19 201,390 6.38 980,555 4.90 M i c h i g a n Michigan 70. Summary Statistics for Natural Gas Michigan, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 1,223 1,160 1,323 1,294 2,061 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 3,257 5,500 6,000 5,258 5,826 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 120,287 126,179 136,989 146,320 201,123 From Oil Wells ........................................... 80,192 84,119 91,332 97,547 50,281 Total.............................................................. 200,479 210,299 228,321 243,867 251,404 Repressuring ................................................

229

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

W W y o m i n g -775,410 50,253 0.57 666,036 3.37 14 0.48 13,534 0.26 87 0.00 9,721 0.31 73,609 0.37 Wyoming 98. Summary Statistics for Natural Gas Wyoming, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 10,826 10,933 10,879 12,166 12,320 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 3,111 3,615 3,942 4,196 4,510 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 751,693 880,596 949,343 988,671 981,115 From Oil Wells ........................................... 285,125 142,006 121,519 111,442 109,434 Total.............................................................. 1,036,817 1,022,602 1,070,862 1,100,113 1,090,549 Repressuring

230

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

-67,648 -67,648 75,616 0.85 480,828 2.43 0 0.00 16,179 0.31 31,767 1.16 27,315 0.86 150,877 0.75 A l a s k a Alaska 49. Summary Statistics for Natural Gas Alaska, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 9,638 9,907 9,733 9,497 9,294 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 112 113 104 100 102 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 198,603 190,139 180,639 179,470 183,747 From Oil Wells ........................................... 2,427,110 2,588,202 2,905,261 3,190,433 3,189,837 Total.............................................................. 2,625,713 2,778,341 3,085,900 3,369,904 3,373,584 Repressuring

231

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

628,189 628,189 449,511 5.07 765,699 3.88 100 3.41 528,662 10.09 39,700 1.45 347,721 11.01 1,365,694 6.83 West North Central West North Central 39. Summary Statistics for Natural Gas West North Central, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 10,177 9,873 9,663 9,034 8,156 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 18,569 19,687 19,623 22,277 21,669 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 594,551 626,728 651,594 655,917 648,822 From Oil Wells ........................................... 133,335 135,565 136,468 134,776 133,390 Total.............................................................. 727,886 762,293

232

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

1,048,760 1,048,760 322,661 3.64 18,131 0.09 54 1.84 403,264 7.69 142,688 5.22 253,075 8.01 1,121,742 5.61 N e w Y o r k New York 80. Summary Statistics for Natural Gas New York, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 329 264 242 197 232 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 5,906 5,757 5,884 6,134 6,208 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 22,697 20,587 19,937 17,677 17,494 From Oil Wells ........................................... 824 610 539 723 641 Total.............................................................. 23,521 21,197 20,476 18,400 18,134 Repressuring ................................................

233

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

1,554,530 1,554,530 311,229 3.51 3,094,431 15.67 442 15.08 299,923 5.72 105,479 3.86 210,381 6.66 927,454 4.64 Mountain Mountain 43. Summary Statistics for Natural Gas Mountain, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 38,711 38,987 37,366 39,275 38,944 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 30,965 34,975 38,539 38,775 41,236 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 2,352,729 2,723,393 3,046,159 3,131,205 3,166,689 From Oil Wells ........................................... 677,771 535,884 472,397 503,986 505,903 Total.............................................................. 3,030,499 3,259,277 3,518,556

234

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

1,592,465 1,592,465 716,648 8.08 239,415 1.21 182 6.21 457,792 8.73 334,123 12.23 320,153 10.14 1,828,898 9.14 South Atlantic South Atlantic 40. Summary Statistics for Natural Gas South Atlantic, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 3,307 3,811 4,496 4,427 4,729 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 39,412 35,149 41,307 37,822 36,827 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 206,766 208,892 234,058 236,072 233,409 From Oil Wells ........................................... 7,584 8,011 8,468 7,133 6,706 Total.............................................................. 214,349 216,903 242,526 243,204 240,115

235

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

1,999,161 1,999,161 895,529 10.10 287,933 1.46 1,402 47.82 569,235 10.86 338,640 12.39 308,804 9.78 2,113,610 10.57 Pacific Contiguous Pacific Contiguous 44. Summary Statistics for Natural Gas Pacific Contiguous, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 3,896 3,781 3,572 3,508 2,082 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 1,142 1,110 1,280 1,014 996 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... 156,635 124,207 117,725 96,329 88,173 From Oil Wells ........................................... 294,800 285,162 282,227 289,430 313,581 Total.............................................................. 451,435 409,370

236

Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

-122,394 -122,394 49,997 0.56 178,984 0.91 5 0.17 37,390 0.71 205 0.01 28,025 0.89 115,622 0.58 West Virginia West Virginia 96. Summary Statistics for Natural Gas West Virginia, 1992-1996 Table 1992 1993 1994 1995 1996 Reserves (billion cubic feet) Estimated Proved Reserves (dry) as of December 31 ....................................... 2,356 2,439 2,565 2,499 2,703 Number of Gas and Gas Condensate Wells Producing at End of Year.............................. 38,250 33,716 39,830 36,144 35,148 Production (million cubic feet) Gross Withdrawals From Gas Wells ......................................... E 182,000 171,024 183,773 186,231 178,984 From Oil Wells ........................................... 0 0 0 0 0 Total.............................................................. E 182,000 171,024 183,773 186,231 178,984 Repressuring ................................................

237

Novel Gas Isotope Interpretation Tools to Optimize Gas Shale  

NLE Websites -- All DOE Office Websites (Extended Search)

Final Report to Final Report to Report Number 08122.15.Final Novel Gas Isotope Interpretation Tools to Optimize Gas Shale Production Contract: 08122-15 Principal Investigator: William A. Goddard, III Title: Director, Materials and Process Simulation Center California Institute of Technology Wag@wag.caltech.edu Co-PIs: Yongchun Tang, Ph.D. Title: Director, Power Environmental Energy Research Institute Other Author(s) Sheng Wu, Ph.D Andrew Deev, Ph.D Qisheng Ma, Ph.D Gao Li, Ph.D. June 5, 2013 2 LEGAL NOTICE This report was prepared by California Institute of Technology as an account of work sponsored by the Research Partnership to Secure Energy for America, RPSEA. Neither RPSEA members of RPSEA, the National Energy Technology Laboratory, the U.S. Department of Energy, nor any person acting on behalf of

238

NATURAL GAS MARKET ASSESSMENT  

E-Print Network (OSTI)

CALIFORNIA ENERGY COMMISSION NATURAL GAS MARKET ASSESSMENT PRELIMINARY RESULTS In Support.................................................................................... 6 Chapter 2: Natural Gas Demand.................................................................................................. 10 Chapter 3: Natural Gas Supply

239

Optimization Models for Optimal Investment, Drilling, and Water Management in Shale Gas Supply Chains  

Science Journals Connector (OSTI)

Abstract This paper provides an overview of recent optimization models for shale gas production. We first describe a new mixed-integer optimization model for the design of shale gas infrastructures. It is aimed at optimizing the number of wells to drill, size and location of new gas processing plants, section and length of pipelines for gathering raw gas, delivering dry gas and natural gas liquids, power of gas compressors, and planning of freshwater consumption for well drilling and fracturing. We also describe a detailed operational mixed-integer linear model to optimize life cycle water use for well pads. The objective of the model is to determine the fracturing schedule that minimizes costs for freshwater consumption, transportation, treatment, storage, and disposal.

Ignacio E. Grossmann; Diego C. Cafaro; Linlin Yang

2014-01-01T23:59:59.000Z

240

Research Projects Addressing Technical Challenges to Environmentally Acceptable Shale Gas Development Selected by DOE  

Energy.gov (U.S. Department of Energy (DOE))

Fifteen research projects aimed at addressing the technical challenges of producing natural gas from shales and tight sands, while simultaneously reducing environmental footprints and risks, have been selected to receive a total of $28 million in funding from the U.S. Department of Energy’s Office of Fossil Energy.

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


241

The Comprehensive Evaluation Model of the Development Prospect of Shale Gas Based on Fuzzy Mathematics  

Science Journals Connector (OSTI)

As an unconventional gas resource, shale gas is an practically alternative energy. Through the analysis of the current situation of shale gas development at home and abroad, this paper ascertains the influencing factors of the development prospect of ... Keywords: shale gas, fuzzy mathematics, development prospect, influence factors

Yanping Wang; Fanqi Meng

2012-08-01T23:59:59.000Z

242

Techno-Economic Assessment and Environmental Impact of Shale Gas Alternatives to Methanol  

Science Journals Connector (OSTI)

Techno-Economic Assessment and Environmental Impact of Shale Gas Alternatives to Methanol ... Recent discoveries of shale gas reserves have promoted a renewed interest in gas-to-liquid technologies for the production of fuels and chemicals. ... In this work, an economic and environmental analysis for the production of methanol from shale gas is presented. ...

Laura M. Julián-Durán; Andrea P. Ortiz-Espinoza; Mahmoud M. El-Halwagi; Arturo Jiménez-Gutiérrez

2014-09-03T23:59:59.000Z

243

Shale Reservoir Characterization | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Oil & Gas » Shale Gas » Shale Reservoir Oil & Gas » Shale Gas » Shale Reservoir Characterization Shale Reservoir Characterization Geologist examining the base of the Marcellus Shale at an outcrop near Bedford, PA. Geologist examining the base of the Marcellus Shale at an outcrop near Bedford, PA. Gas-producing shales are predominantly composed of consolidated clay-sized particles with a high organic content. High subsurface pressures and temperatures convert the organic matter to oil and gas, which may migrate to conventional petroleum traps and also remains within the shale. However, the clay content severely limits gas and fluid flow within the shales. It is, therefore, necessary to understand the mineral and organic content, occurrence of natural fractures, thermal maturity, shale volumes, porosity

244

Enhancing Shale Gas Recovery by High-Temperature Supercritical CO2 Flooding  

Science Journals Connector (OSTI)

We examine a new technology for shale gas recovery: high-temperature supercritical carbon dioxide flooding ... of supercritical carbon dioxide, the characteristics of shale gas reservoirs, the adsorption/desorpti...

Feiying Ma; Yongqing Wang; Lin Wang

2013-09-01T23:59:59.000Z

245

Shale Gas Formations and Their Potential for Carbon Storage: Opportunities and Outlook  

Science Journals Connector (OSTI)

Shale gas resources are proving to be globally abundant...2...(carbon dioxide) to mitigate the climate impacts of global carbon emissions from power and industrial sectors. This paper reviews global shale gas res...

Roozbeh Khosrokhavar; Steve Griffiths; Karl-Heinz Wolf

2014-09-01T23:59:59.000Z

246

The possibilities of using shale gas in the Russian and European power industries  

Science Journals Connector (OSTI)

Recent years have witnessed wide interest of the society in the problem of shale gas with its being discussed at different levels, ... to political ones. The data on the shale gas resources worldwide and in indiv...

A. O. Morozova; V. V. Klimenko

2014-04-01T23:59:59.000Z

247

Market Digest: Natural Gas  

Reports and Publications (EIA)

The Energy Information Administration's Natural Gas Market Digest provides information and analyses on all aspects of natural gas markets.

2014-01-01T23:59:59.000Z

248

Rock-Fluid Chemistry Impacts on Shale Hydraulic Fracture and Microfracture Growth  

E-Print Network (OSTI)

fracturing fluids, to achieve improved fracture performance and higher recovery of natural gas from shale reservoirs....

Aderibigbe, Aderonke

2012-07-16T23:59:59.000Z

249

Shale gas for the petrochemical industry: Incorporation of novel technologies  

Science Journals Connector (OSTI)

Abstract In this work, a new shale gas-based polygeneration system with essentially zero CO2 emissions is proposed that co-produces methanol, dimethyl ether (DME), olefins and power. The thermal and economic analysis of the proposed process is performed to determine the optimum product portfolio regarding current market prices. The optimization results show that production of methanol/DME and power can improve the performance of the olefin production section significantly. Therefore, the proposed plant can link the shale gas industry to the petrochemical sector efficiently and in an environmentally friendly way.

Yaser Khojasteh Salkuyeh; Thomas A. Adams II

2014-01-01T23:59:59.000Z

250

Natural Gas Regulations (Kentucky) | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Natural Gas Regulations (Kentucky) Natural Gas Regulations (Kentucky) Natural Gas Regulations (Kentucky) < Back Eligibility Commercial Construction Developer Fuel Distributor Industrial Installer/Contractor Investor-Owned Utility Municipal/Public Utility Retail Supplier Rural Electric Cooperative Utility Program Info State Kentucky Program Type Environmental Regulations Siting and Permitting Provider Department For Natural Resources Kentucky Administrative Regulation title 805 promulgates the rules and regulations pertaining to natural gas production in Kentucky. In addition to KAR title 405, chapter 30, which pertains to any oil shale operation, these regulations govern natural gas operations throughout the state. The following information is found in KAR title 404 chapter 30: Oil shale operations or related activity require a valid permit covering

251

Quantitative dynamic analysis of gas desorption contribution to production in shale gas reservoirs  

Science Journals Connector (OSTI)

Abstract Unlike in conventional gas reservoirs, gas in shale reservoirs is stored mainly as free gas and adsorbed gas, and a small amount of dissolved gas. Well production from shale gas reservoirs usually exhibits sharply decline trend in the early period of production and then turns to long-term stable production at a relatively low rate, for which gas desorption contribution has been considered as a possible explanation. This study aims at providing an accurate evaluation of the contribution from gas desorption to dynamic production. Through incorporation of artificial component subdivision in a numerical simulator, the production contributions of the free and adsorbed gas can be obtained separately. This analysis approach is validated firstly and then applied to two case studies based on conceptual models of Barnett and Antrim Shale. The results show that desorbed gas dominates the production in Antrim Shale, while it only plays a small role in the production in Barnett Shale. The impact of permeability and initial gas saturation are also analyzed. In previous studies, numerical and analytical simulators were used to investigate the difference between the production performances with or without desorption, attributing the production increase to gas desorption. However, our study shows this treatment overestimates the contribution from gas desorption. This work provides a simple but accurate method for the dynamic analysis of desorption contribution to total production, contributing to reservoir resource assessment, the understanding of production mechanisms, and shale gas production simulation.

Tingyun Yang; Xiang Li; Dongxiao Zhang

2014-01-01T23:59:59.000Z

252

Matrix Heterogeneity Effects on Gas Transport and Adsorption in Coalbed and Shale Gas Reservoirs  

Science Journals Connector (OSTI)

In coalbeds and shales, gas transport and storage are important for accurate ... rates and for the consideration of subsurface greenhouse gas sequestration. They involve coupled fluid phenomena in ... transport, ...

Ebrahim Fathi; I. Yücel Akkutlu

2009-11-01T23:59:59.000Z

253

Impact of Sorption Isotherms on the Simulation of CO2-Enhanced Gas Recovery and Storage Process in Marcellus Shale  

E-Print Network (OSTI)

reservoirs, natural gas occurs as free gas in the intergranular and fracture porosity and is adsorbed on clay Continuous, low-permeability, fractured, organic-rich gas shale units are widespread and are possible geologic storage targets .The Marcellus could act as a storage reservoir for captured CO2. In this scenario

Mohaghegh, Shahab

254

Design of Bulk Railway Terminals for the Shale Oil and Gas Industry C. Tyler Dick1  

E-Print Network (OSTI)

Page 1 Design of Bulk Railway Terminals for the Shale Oil and Gas Industry C. Tyler Dick1 , P.E., M: Railway transportation is playing a key role in the development of many new shale oil and gas reserves in North America. In the rush to develop new shale oil and gas plays, sites for railway transload terminals

Barkan, Christopher P.L.

255

Title: Working Together in Shale Gas Policy Hosts: Todd Cowen, Teresa Jordan and Christine Shoemaker  

E-Print Network (OSTI)

Title: Working Together in Shale Gas Policy Hosts: Todd Cowen, Teresa Jordan and Christine and environmental groups. The Shale Gas Roundtable of the Institute of Politics at the University of Pittsburgh produced a report with several recommendations dealing especially with shale gas research, water use

Angenent, Lars T.

256

Strategic Planning, Design and Development of the Shale Gas Supply Chain Network  

E-Print Network (OSTI)

1 Strategic Planning, Design and Development of the Shale Gas Supply Chain Network Diego C. Cafaro1-term planning of the shale gas supply chain is a relevant problem that has not been addressed before Shale gas, supply chain, strategic planning, MINLP, solution algorithm * Corresponding author. Tel.: +1

Grossmann, Ignacio E.

257

Exploring the Environmental Effects of Shale Gas Development in the Chesapeake Bay Watershed  

E-Print Network (OSTI)

Exploring the Environmental Effects of Shale Gas Development in the Chesapeake Bay Watershed STAC Committee). 2013. Exploring the environmental effects of shale gas development in the Chesapeake Bay of shale gas development in the Chesapeake Bay Watershed. The purpose of this workshop was to engage

258

NATURAL GAS FROM SHALE: Questions and Answers Shale Gas Development...  

Energy Savers (EERE)

discharged, or disposed of in an approved manner. More and more companies are utilizing tanks for storage to avoid potential problems of seepage and spillage. 1 Massachusetts...

259

,"Missouri Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

Gas Sold to Commercial Consumers (Dollars per Thousand Cubic Feet)","Missouri Natural Gas Industrial Price (Dollars per Thousand Cubic Feet)","Missouri Natural Gas Price Sold to...

260

Natural Gas Weekly Update  

Annual Energy Outlook 2012 (EIA)

natural gas production output. Rigs Natural Gas Transportation Update Tennessee Gas Pipeline Company yesterday (August 4) said it is mobilizing equipment and manpower for...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


261

Accounting for Adsorbed gas and its effect on production bahavior of Shale Gas Reservoirs  

E-Print Network (OSTI)

ACCOUNTING FOR ADSORBED GAS AND ITS EFFECT ON PRODUCTION BEHAVIOR OF SHALE GAS RESERVOIRS A Thesis by SALMAN AKRAM MENGAL Submitted to the Office of Graduate Studies of Texas A&M University in partial fulfillment... of the requirements for the degree of MASTER OF SCIENCE August 2010 Major Subject: Petroleum Engineering ACCOUNTING FOR ADSORBED GAS AND ITS EFFECT ON PRODUCTION BEHAVIOR OF SHALE GAS RESERVOIRS A Thesis by SALMAN AKRAM MENGAL...

Mengal, Salman Akram

2010-10-12T23:59:59.000Z

262

Petrology of the Devonian gas-bearing shale along Lake Erie helps explain gas shows  

SciTech Connect

Comprehensive petrologic study of 136 thin sections of the Ohio Shale along Lake Erie, when combined with detailed stratigraphic study, helps explain the occurrence of its gas shows, most of which occur in the silty, greenish-gray, organic poor Chagrin Shale and Three Lick Bed. Both have thicker siltstone laminae and more siltstone beds than other members of the Ohio Shale and both units also contain more clayshales. The source of the gas in the Chagrin Shale and Three Lick Bed of the Ohio Shale is believed to be the bituminous-rich shales of the middle and lower parts of the underlying Huron Member of the Ohio Shale. Eleven petrographic types were recognized and extended descriptions are provided of the major ones - claystones, clayshales, mudshales, and bituminous shales plus laminated and unlaminated siltstones and very minor marlstones and sandstones. In addition three major types of lamination were identified and studied. Thirty-two shale samples were analyzed for organic carbon, whole rock hydrogen and whole rock nitrogen with a Perkin-Elmer 240 Elemental Analyzer and provided the data base for source rock evaluation of the Ohio Shale.

Broadhead, R.F.; Potter, P.E.

1980-11-01T23:59:59.000Z

263

Liquid Natural Gas  

Science Journals Connector (OSTI)

Liquid Natural Gas ... IN A new technique for storing natural gas at the East Ohio Gas Co. plant, Cleveland, Ohio, the gas is liquefied before passing to the gas holders. ... Natural gas contains moisture and carbon dioxide, both of which liquefy before the natural gas and are somewhat of a nuisance because upon solidification they clog the pipes. ...

W. F. SCHAPHORST

1941-04-25T23:59:59.000Z

264

Status and outlook for shale gas and tight oil development in the U.S.  

Gasoline and Diesel Fuel Update (EIA)

Joint Forum on US Shale Gas & Pacific Gas Markets Joint Forum on US Shale Gas & Pacific Gas Markets May 14, 2013 | New York, NY By Adam Sieminski, Administrator U.S. Shale Gas 2 Adam Sieminski , May 14, 2013 Domestic production of shale gas has grown dramatically over the past few years Adam Sieminski , May 14, 2013 3 0 5 10 15 20 25 30 2000 2002 2004 2006 2008 2010 2012 Rest of US Marcellus (PA and WV) Haynesville (LA and TX) Eagle Ford (TX) Bakken (ND) Woodford (OK) Fayetteville (AR) Barnett (TX) Antrim (MI, IN, and OH) shale gas production (dry) billion cubic feet per day Sources: LCI Energy Insight gross withdrawal estimates as of March 2013 and converted to dry production estimates with EIA-calculated average gross-to-dry shrinkage factors by state and/or shale play. Shale gas leads growth in total gas production through 2040 to

265

Cliffs Minerals, Inc. Eastern Gas Shales Project, Ohio No. 5 well - Lorain County. Phase II report. Preliminary laboratory results  

SciTech Connect

The US Department of Energy is funding a research and development program entitled the Eastern Gas Shales Project designed to increase commercial production of natural gas in the eastern United States from Middle and Upper Devonian Shales. The program's objectives are as follows: (1) to evaluate recoverable reserves of gas contained in the shales; (2) to enhanced recovery technology for production from shale gas reservoirs; and (3) to stimulate interest among commercial gas suppliers in the concept of producing large quantities of gas from low-yield, shallow Devonian Shale wells. The EGSP-Ohio No. 5 well was cored under a cooperative cost-sharing agreement between the Department of Energy (METC) and Columbia Gas Transmission Corporation. Detailed characterization of the core was performed at the Eastern Gas Shale Project's Core Laboratory. At the well site, suites of wet and dry hole geophysical logs were run. Characterization work performed at the Laboratory included photographic logs, lithologic logs, fracture logs, measurements of core color variation, and stratigraphic interpretation of the cored intervals. In addition samples were tested for physical properties by Michigan Technological University. Physical properties data obtained were for: directional ultrasonic velocity; directional tensile strength; strength in point load; and trends of microfractures.

none,

1980-04-01T23:59:59.000Z

266

Natural Gas  

Science Journals Connector (OSTI)

... CHOOSING an awkward moment, Phillips Petroleum Exploration have announced a new find of natural ...naturalgas ...

1967-02-11T23:59:59.000Z

267

Gas sales starting from Indiana`s fractured New Albany shale  

SciTech Connect

The Indiana Department of Natural Resources, Division of Oil and Gas issued 138 drilling permits from Dec. 1, 1994, through July 31, 1996, in 17 counties in a growing play for gas in Devonian New Albany shale in southern Indiana. The permits are active in the form of locations, drilling wells, wells in the completion process, and wells producing gas in the dewatering stage. Geologically in southwestern Indiana the New Albany shale exploration play is found in three provinces. These are the Wabash platform, the Terre Haute reef bank, and the Vincennes basin. Exploration permits issued on each of these geologic provinces are as follows: Wabash platform 103, Terra Haute reef bank 33, and Vincennes basin two. The authors feel that the quantity and effectiveness of communication of fracturing in the shale will control gas production and water production. A rule of thumb in a desorption reservoir is that the more water a shale well makes in the beginning the more gas it will make when dewatered.

Minihan, E.D.; Buzzard, R.D. [Minihan/Buzzard Consulting Geologists, Fort Worth, TX (United States)

1996-09-02T23:59:59.000Z

268

New Albany shale gas flow starts in western Indiana  

SciTech Connect

This paper briefly describes the stratigraphy and lithology of the New Albany shale and how this affects the placement of gas recovery wells in the Greene County, Indiana area. It reviews the project planning aspects including salt water reinjection and well spacing for optimum gas recovery. It also briefly touches on how the wells were completed and brought on-line for production and distribution.

NONE

1996-04-29T23:59:59.000Z

269

Unconventional gas resources. [Eastern Gas Shales, Western Gas Sands, Coalbed Methane, Methane from Geopressured Systems  

SciTech Connect

This document describes the program goals, research activities, and the role of the Federal Government in a strategic plan to reduce the uncertainties surrounding the reserve potential of the unconventional gas resources, namely, the Eastern Gas Shales, the Western Gas Sands, Coalbed Methane, and methane from Geopressured Aquifers. The intent is to provide a concise overview of the program and to identify the technical activities that must be completed in the successful achievement of the objectives.

Komar, C.A. (ed.)

1980-01-01T23:59:59.000Z

270

EIA - Analysis of Natural Gas Prices  

Gasoline and Diesel Fuel Update (EIA)

Prices Prices 2010 Peaks, Plans and (Persnickety) Prices This presentation provides information about EIA's estimates of working gas peak storage capacity, and the development of the natural gas storage industry. Natural gas shale and the need for high deliverability storage are identified as key drivers in natural gas storage capacity development. The presentation also provides estimates of planned storage facilities through 2012. Categories: Prices, Storage (Released, 10/28/2010, ppt format) Natural Gas Year-In-Review 2009 This is a special report that provides an overview of the natural gas industry and markets in 2009 with special focus on the first complete set of supply and disposition data for 2009 from the Energy Information Administration. Topics discussed include natural gas end-use consumption trends, offshore and onshore production, imports and exports of pipeline and liquefied natural gas, and above-average storage inventories. Categories: Prices, Production, Consumption, Imports/Exports & Pipelines, Storage (Released, 7/9/2010, Html format)

271

Natural Gas | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

March 25, 2013 March 25, 2013 Image of how methane hydrates can form in arctic and marine environments. | Illustration by the Energy Department. Data from Alaska Test Could Help Advance Methane Hydrate R&D Methane Hydrates present an enormous energy resource. The Energy Department is working to advance technologies and reap the possible benefits for a more secure energy future. March 22, 2013 ARPA-E Announces $40 Million for Research Projects to Develop Cleaner and Cheaper Transportation Choices for Consumers Two New ARPA-E Programs Will Engage Nation's Brightest Scientists, Engineers and Entrepreneurs in Research Competition to Improve Vehicle Manufacturing Techniques and Natural Gas Conversion January 10, 2013 Today shale gas accounts for about 25 percent of our natural gas production. And experts believe this abundant supply will mean lower energy costs for millions of families; fewer greenhouse gas emissions; and more American jobs. | Photo courtesy of the EIA.

272

Assessment of the Mexican Eagle Ford Shale Oil and Gas Resources  

E-Print Network (OSTI)

-rich zone. Accurate estimation of the resource size and future production, as well as the uncertainties associated with them, is critical for the decision-making process of developing shale oil and gas resources. The complexity of the shale reservoirs...

Morales Velasco, Carlos Armando

2013-08-02T23:59:59.000Z

273

Evidence of Pressure Dependent Permeability in Long-Term Shale Gas Production and Pressure Transient Responses  

E-Print Network (OSTI)

The current state of shale gas reservoir dynamics demands understanding long-term production, and existing models that address important parameters like fracture half-length, permeability, and stimulated shale volume assume constant permeability...

Vera Rosales, Fabian 1986-

2012-12-11T23:59:59.000Z

274

Pressure Transient Analysis for Multi-stage Fractured Horizontal Wells in Shale Gas Reservoirs  

Science Journals Connector (OSTI)

This article presents the PTA on the multi-stage fractured horizontal well in shale gas reservoirs incorporating desorption and diffusive flow in ... considering the mechanisms of desorption and diffusion in shale

Jingjing Guo; Liehui Zhang; Haitao Wang; Guoqing Feng

2012-07-01T23:59:59.000Z

275

Methane adsorption comparison of different thermal maturity kerogens in shale gas system  

Science Journals Connector (OSTI)

To determine the effect of thermal maturity on the methane sorption in shale gas system, two different thermal maturity kerogens of type II isolated from Barnett shale of Fort Worth Basin were used to...

Haiyan Hu

2014-12-01T23:59:59.000Z

276

Natural Gas Hydrates  

Science Journals Connector (OSTI)

Natural Gas Hydrates ... Formation Characteristics of Synthesized Natural Gas Hydrates in Meso- and Macroporous Silica Gels ... Formation Characteristics of Synthesized Natural Gas Hydrates in Meso- and Macroporous Silica Gels ...

Willard I. Wilcox; D. B. Carson; D. L. Katz

1941-01-01T23:59:59.000Z

277

Natural Gas Industrial Price  

Gasoline and Diesel Fuel Update (EIA)

Citygate Price Residential Price Commercial Price Industrial Price Electric Power Price Gross Withdrawals Gross Withdrawals From Gas Wells Gross Withdrawals From Oil Wells Gross Withdrawals From Shale Gas Wells Gross Withdrawals From Coalbed Wells Repressuring Nonhydrocarbon Gases Removed Vented and Flared Marketed Production NGPL Production, Gaseous Equivalent Dry Production Imports By Pipeline LNG Imports Exports Exports By Pipeline LNG Exports Underground Storage Capacity Gas in Underground Storage Base Gas in Underground Storage Working Gas in Underground Storage Underground Storage Injections Underground Storage Withdrawals Underground Storage Net Withdrawals Total Consumption Lease and Plant Fuel Consumption Pipeline & Distribution Use Delivered to Consumers Residential Commercial Industrial Vehicle Fuel Electric Power Period: Monthly Annual

278

Historical Natural Gas Annual  

U.S. Energy Information Administration (EIA) Indexed Site

8 The Historical Natural Gas Annual contains historical information on supply and disposition of natural gas at the national, regional, and State level as well as prices at...

279

Historical Natural Gas Annual  

U.S. Energy Information Administration (EIA) Indexed Site

6 The Historical Natural Gas Annual contains historical information on supply and disposition of natural gas at the national, regional, and State level as well as prices at...

280

Historical Natural Gas Annual  

U.S. Energy Information Administration (EIA) Indexed Site

7 The Historical Natural Gas Annual contains historical information on supply and disposition of natural gas at the national, regional, and State level as well as prices at...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


281

Methane adsorption on Devonian shales  

E-Print Network (OSTI)

important regional source of natural gas. In addition to the free gas which is located in the pore space and the natural fractures of the shales, the natural gas is also stored iu the shale matrix as an adsorbed state; therefore, these shales... are considered an uuconvcsstional gas us(. rvo(r. 8('hfle it is estimated tlrat, the adsorbed phas( may account, I'or morc thau half of the total gas content of th(. Devonian shales, very I'ew studi( s hav( been done on this topic, arrcl few measured data...

Li, Fan-Chang

2012-06-07T23:59:59.000Z

282

The Importance of Geochemical Parameters and Shale Composition on Rock Mechanical Properties of Gas Shale Reservoirs: a Case Study From the Kockatea Shale and Carynginia Formation From the Perth Basin, Western Australia  

Science Journals Connector (OSTI)

Evaluation of the gas shale mechanical properties is very important screening criteria ... for hydraulic fracturing and as a result in gas shale sweet spot mapping. Young’s modulus and ... mechanical properties t...

Mohammad Mahdi Labani; Reza Rezaee

2014-06-01T23:59:59.000Z

283

The enrichment behavior of natural radionuclides in pulverized oil shale-fired power plants  

Science Journals Connector (OSTI)

Abstract The oil shale industry is the largest producer of NORM (Naturally Occurring Radioactive Material) waste in Estonia. Approximately 11–12 million tons of oil shale containing various amounts of natural radionuclides is burned annually in the Narva oil shale-fired power plants, which accounts for approximately 90% of Estonian electricity production. The radionuclide behavior characteristics change during the fuel combustion process, which redistributes the radionuclides between different ash fractions. Out of 24 operational boilers in the power plants, four use circulating fluidized bed (CFB) technology and twenty use pulverized fuel (PF) technology. Over the past decade, the PF boilers have been renovated, with the main objective to increase the efficiency of the filter systems. Between 2009 and 2012, electrostatic precipitators (ESP) in four PF energy blocks were replaced with novel integrated desulphurization technology (NID) for the efficient removal of fly ash and SO2 from flue gases. Using gamma spectrometry, activity concentrations and enrichment factors for the 238U (238U, 226Ra, 210Pb) and 232Th (232Th, 228Ra) family radionuclides as well as 40K were measured and analyzed in different PF boiler ash fractions. The radionuclide activity concentrations in the ash samples increased from the furnace toward the back end of the flue gas duct. The highest values in different PF boiler ash fractions were in the last field of the ESP and in the NID ash, where radionuclide enrichment factors were up to 4.2 and 3.3, respectively. The acquired and analyzed data on radionuclide activity concentrations in different PF boiler ashes (operating with an ESP and a NID system) compared to CFB boiler ashes provides an indication that changes in the fuel (oil shale) composition and boiler working parameters, as well as technological enhancements in Estonian oil shale fired power plants, have had a combined effect on the distribution patterns of natural radionuclides in the oil shale combustion products.

Taavi Vaasma; Madis Kiisk; Tõnis Meriste; Alan Henry Tkaczyk

2014-01-01T23:59:59.000Z

284

The investigation of fracture aperture effect on shale gas transport using discrete fracture model  

Science Journals Connector (OSTI)

Abstract Discrete fracture model (DFM) numerical simulation is used to investigate the shale gas transports in fractured porous media in this paper. A new seepage flow mathematic model, in which flow in fracture meets “Cubic law” and matrix meets “non-Darcy law”, is adopted and fracture aperture effect on the transport behavior is simulated by solving the nonlinear partial differential equations using finite element analysis (FEA). In this DFM, fluid flows into wellbore which is surrounded by impermeable rock matrix is merely through fractures that connect to it. The model is used to simulate a random generated fractures network to study the flow and transport characteristics in fractured porous media (FPM). Several cases with different fracture aperture in same natural fractured model are given. The preliminary simulation results show that both the natural and hydraulic fracture aperture have a significant impact on shale gas migration and production.

Lidong Mi; Hanqiao Jiang; Junjian Li; Tao Li; Ye Tian

2014-01-01T23:59:59.000Z

285

nat_gas_current_proj | netl.doe.gov  

NLE Websites -- All DOE Office Websites (Extended Search)

Natural Gas Resources Natural Gas Resources Enhanced Oil Recovery Deepwater Tech Methane Hydrate Natural Gas Resources Shale Gas | Environmental | Other Natural Gas Related...

286

Harmonization of initial estimates of shale gas life cycle greenhouse gas emissions for electric power generation  

Science Journals Connector (OSTI)

...and conventional gas are not significantly...harmonized estimates of life cycle GHG emissions...unconventional gas used for electricity...combined cycle turbine (NGCC) compared...explanation of the remaining harmonization...evaluated shale gas LCAs: inclusion of missing life cycle stages...

Garvin A. Heath; Patrick O’Donoughue; Douglas J. Arent; Morgan Bazilian

2014-01-01T23:59:59.000Z

287

Water Use for Shale-Gas Production in Texas, U.S.  

Science Journals Connector (OSTI)

Shale-gas production using hydraulic fracturing of mostly horizontal wells has led to considerable controversy over water-resource and environmental impacts. ... Most studies of water-resource impacts from shale-gas exploration and production have focused on effects of fracking on water quality;(5) however, some studies also emphasize impacts on water quantity. ... (6-10) Few published studies quantify water use for shale-gas production and their environmental impact. ...

Jean-Philippe Nicot; Bridget R. Scanlon

2012-03-02T23:59:59.000Z

288

Wellbore stability model for shale gas reservoir considering the coupling of multi-weakness planes and porous flow  

Science Journals Connector (OSTI)

Abstract Irregular wellbore collapse phenomena and accidents frequently occur during drilling operations in Longmaxi shale gas reservoir. Considering shale formation with natural cross beddings and fractures, we propose a multi-weakness plane instead of a single weakness plane failure model. Shale samples obtained from the Lower Silurian Longmaxi Strata of Sichuan Basin are investigated based on characterization and analysis of mineralogy, pore structure, sliding failure condition, and rock mechanics to study the impact of porous flow on jointed shale masses. Results show that Longmaxi gas shale is a brittle and fracture-prone material with poor hydrating capacity and extremely low permeability in rock matrices. Reduction of rock strength under porous flow may contribute to changes in intensity parameters of the weakness planes. Therefore, considering the failure of multi-weakness planes under porous flow, we present a wellbore stability model for shale gas reservoir. Two types of weakness plane distribution patterns are examined to discuss the effect of the occurrence, numbers, and water saturation of weakness planes. The results demonstrate that the number of weakness planes, difference in weakness plane occurrence, and diverse water saturation levels significantly affect wellbore stability during drilling.

Chuan Liang; Mian Chen; Yan Jin; Yunhu Lu

2014-01-01T23:59:59.000Z

289

ANALYSIS OF GAS PRODUCTION FROM HYDRAULICALLY FRACTURED WELLS IN THE HAYNESVILLE SHALE USING SCALING METHODS  

E-Print Network (OSTI)

ANALYSIS OF GAS PRODUCTION FROM HYDRAULICALLY FRACTURED WELLS IN THE HAYNESVILLE SHALE USING. INTRODUCTION Before the advent of hydraulic fracturing technology and hor- izontal drilling, the Haynesville

Patzek, Tadeusz W.

290

Municipal officials’ decisions to lease watershed lands for Marcellus shale gas exploration  

Science Journals Connector (OSTI)

This paper provides insight into municipalities’ decisions to lease watershed lands for Marcellus shale gas exploration in Pennsylvania. The focus was on...

Charles Abdalla; Renata Rimsaite…

2014-03-01T23:59:59.000Z

291

MARCELLUS SHALE APRIL 2011 EDITION  

E-Print Network (OSTI)

Wells (213111); Support Activities for Oil & Gas Operations (213112); Oil & Gas Pipeline & Related Structures Construction (237120); and Pipeline Transportation of Natural Gas (486210). Marcellus Shale (541620); Remediation Services (562910); Commercial & Industrial Machinery & Equipment Repair

Boyer, Elizabeth W.

292

Impacts of Shale Gas Wastewater Disposal on Water Quality in Western Pennsylvania  

E-Print Network (OSTI)

States, oil and gas wastewater is managed through recycling of the wastewater for shale gas operations of the wastewater.7 However, options for the proper disposal and management of the wastewater that is not recycledImpacts of Shale Gas Wastewater Disposal on Water Quality in Western Pennsylvania Nathaniel R

Jackson, Robert B.

293

Modeling the Relative GHG Emissions of Conventional and Shale Gas Production  

Science Journals Connector (OSTI)

Modeling the Relative GHG Emissions of Conventional and Shale Gas Production ... Recent reports show growing reserves of unconventional gas are available and that there is an appetite from policy makers, industry, and others to better understand the GHG impact of exploiting reserves such as shale gas. ... The results show which parameters have most influence on GHG emissions intensity and which are relatively unimportant. ...

Trevor Stephenson; Jose Eduardo Valle; Xavier Riera-Palou

2011-11-15T23:59:59.000Z

294

Environmental Effects and Its Assessment for Shale Gas Large-Scale Development of China  

Science Journals Connector (OSTI)

Shale gas is a new kind of unconventional gas and can be used with a environmental acceptable way with high energy efficiency. The large-scale development of shale gas in china will contribute to energy structure referring both in supply and demand as ...

Jian Wang, Zihan Liu, Shubin Wang

2014-07-01T23:59:59.000Z

295

NETL: Natural Gas Resources, Enhanced Oil Recovery, Deepwater Technology  

NLE Websites -- All DOE Office Websites (Extended Search)

and Natural Gas Projects and Natural Gas Projects Index of Research Project Summaries Use the links provided below to access detailed DOE/NETL project information, including project reports, contacts, and pertinent publications. Search Natural Gas and Oil Projects Current Projects Natural Gas Resources Shale Gas Environmental Other Natural Gas Resources Ehanced Oil Recovery CO2 EOR Environmental Other EOR & Oil Resources Deepwater Technology Offshore Architecture Safety & Environmental Other Deepwater Technology Methane Hydrates DOE/NETL Projects Completed Projects Completed Natural Gas Resources Completed Enhanced Oil Recovery Completed Deepwater Technology Completed E&P Technologies Completed Environmental Solutions Completed Methane Hydrates Completed Transmission & Distribution

296

An approach for assessing engineering risk from shale gas wells in the United States  

Science Journals Connector (OSTI)

Abstract In response to a series of “energy crises” in the 1970s, the United States government began investigating the potential of unconventional, domestic sources of energy to offset imported oil. Hydraulic fracturing applied to vertical tight sand and coal bed methane wells achieved some degree of success during a period of high energy prices in the early 1980s, but shale gas remained largely untapped until the late 1990s with the application of directional drilling, a mature technology adapted from deepwater offshore platforms that allowed horizontal wells to penetrate kilometers of organic-rich shale, and staged hydraulic fracturing, which created high permeability flowpaths from the horizontal wells into a much greater volume of the target formations than previous completion methods. These new engineering techniques opened up vast unconventional natural gas and oil reserves, but also raised concerns about potential environmental impacts. These include short-term and long-term impacts to air and water quality from rig operations, potential migration of gas, fluids and chemicals through the ground, and effects on small watersheds and landscapes from roads, pads and other surface structures. Engineering risk assessment commonly uses integrated assessment models (IAMs), which define sources of risk from features, events and processes. The risk from each system element is assessed using high-fidelity models. Output from these is simplified into reduced-order models, so that a large, integrated site performance assessment can be run using the IAM. The technique has been applied to engineered systems in geologic settings for sequestering carbon dioxide, and it is also applicable to shale gas, albeit with some modifications of the various system elements. Preliminary findings indicate that shale gas well drilling and hydraulic fracturing techniques are generally safe when properly applied. Incident reports recorded by state environmental agencies suggest that human error resulting from the disregard of prescribed practices is the greatest cause of environmental incidents. This can only be addressed through education, regulations and enforcement.

Daniel J. Soeder; Shikha Sharma; Natalie Pekney; Leslie Hopkinson; Robert Dilmore; Barbara Kutchko; Brian Stewart; Kimberly Carter; Alexandra Hakala; Rosemary Capo

2014-01-01T23:59:59.000Z

297

Shale-Gas Permeability and Diffusivity Inferred by Improved Formulation of Relevant Retention and Transport Mechanisms  

Science Journals Connector (OSTI)

A theoretically improved model incorporating the relevant mechanisms of gas retention and transport in gas-bearing shale formations is presented for determination of intrinsic gas permeability and diffusivity. Th...

Faruk Civan; Chandra S. Rai; Carl H. Sondergeld

2011-02-01T23:59:59.000Z

298

Organic geochemistry of Mississippian shales (Bowland Shale Formation) in central Britain: Implications for depositional environment, source rock and gas shale potential  

Science Journals Connector (OSTI)

Abstract Marine Carboniferous shales are proven hydrocarbon source rocks in central Britain. In this contribution the depositional environment and shale gas/liquid potential of the lower Namurian part of the Bowland Shale Formation is studied using 77 thermally immature samples from the Duffield borehole. The Bowland Shale Formation comprises mudstone and turibidite lithofacies reflecting a pronounced sea level controlled cyclicity. The total organic carbon (TOC) content of the mudstones lithofacies (including marine bands) and of fine-grained rocks within the turibidite lithofacies varies between 1.3 and 9.1%. Hydrogen index (HI) values imply the presence of kerogen type III-II. According to biomarker ratios and bulk geochemical parameters, marine bands (maximum flooding surfaces, mfs) were deposited in deep water with slightly enhanced, normal, or slightly reduced salinity. Mudstones of the highstand systems tract (HST) were deposited in environments with normal to reduced salinity, whereas photic zone anoxia favoured the preservation of marine organic matter during deposition of the mfs and the HST. The supply of landplant debris increased during the HST. Turbidites and their non-calcareous mudstone equivalents represent lowstand systems tracts deposited in low salinity environments. Terrestrial organic matter dominates in turbiditic sediments, marine organisms prevail in time-equivalent mudstones. Mudstone beneath marine bands represents transgressive systems tracts when normal marine conditions and photic zone anoxia were re-established. The mudstone lithofacies exhibits a very good to excellent potential to generate conventional mixed oil and gas. TOC content of fine-grained rocks in the turbidite lithofacies depends on the amount of detrital minerals supplied from the south. Moreover, their organic matter is gas-prone. High TOC contents and large thicknesses of the mudstone lithofacies show that the Bowland Shale Formation holds a significant shale gas/liquid potential in areas with appropriate maturity. A relatively low average HI and high clay contents may have negative effects on the shale gas potential.

D. Gross; R.F. Sachsenhofer; A. Bechtel; L. Pytlak; B. Rupprecht; E. Wegerer

2015-01-01T23:59:59.000Z

299

Energy Department Projects Focus on Sustainable Natural Gas Development |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Projects Focus on Sustainable Natural Gas Projects Focus on Sustainable Natural Gas Development Energy Department Projects Focus on Sustainable Natural Gas Development January 10, 2013 - 1:00pm Addthis Today shale gas accounts for about 25 percent of our natural gas production. And experts believe this abundant supply will mean lower energy costs for millions of families; fewer greenhouse gas emissions; and more American jobs. | Photo courtesy of the EIA. Today shale gas accounts for about 25 percent of our natural gas production. And experts believe this abundant supply will mean lower energy costs for millions of families; fewer greenhouse gas emissions; and more American jobs. | Photo courtesy of the EIA. Gayland Barksdale Technical Writer, Office of Fossil Energy What is RPSEA? The Research Partnership to Secure Energy for America - or RPSEA -

300

Deep, water-free gas potential is upside to New Albany shale play  

SciTech Connect

The New Albany shale of the Illinois basin contains major accumulations of Devonian shale gas, comparable both to the Antrim shale of the Michigan basin and the Ohio shale of the Appalachian basin. The size of the resource originally assessed at 61 tcf has recently been increased to between 323 tcf and 528 tcf. According to the 1995 US Geological Survey appraisal, New Albany shale gas represents 52% of the undiscovered oil and gas reserves of the Illinois basin, with another 45% attributed to coalbed methane. New Albany shale gas has been developed episodically for over 140 years, resulting in production from some 40 fields in western Kentucky, 20 fields in southern Indiana, and at least 1 field in southern Illinois. The paper describes two different plays identified by a GRI study and prospective areas.

Hamilton-Smith, T. [Hamilton-Smith LLC, Lexington, KY (United States)

1998-02-16T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


301

Early Trends in Landcover Change and Forest Fragmentation Due to Shale-Gas Development in Pennsylvania: A Potential Outcome for the Northcentral Appalachians  

Science Journals Connector (OSTI)

Worldwide shale-gas development has the potential to cause substantial ... , we examine land cover change due to shale-gas exploration, with emphasis on forest fragmentation. Pennsylvania’s shale-gas development ...

P. J. Drohan; M. Brittingham; J. Bishop; K. Yoder

2012-05-01T23:59:59.000Z

302

Natural Gas Rules (Louisiana)  

Energy.gov (U.S. Department of Energy (DOE))

The Louisiana Department of Natural Resources administers the rules that govern natural gas exploration and extraction in the state. DNR works with the Louisiana Department of Environmental...

303

Natural Gas Annual, 2001  

Gasoline and Diesel Fuel Update (EIA)

1 1 EIA Home > Natural Gas > Natural Gas Data Publications Natural Gas Annual, 2001 The Natural Gas Annual, 2001 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2001. Summary data are presented for each State for 1997 to 2001. The data that appear in the tables of the Natural Gas Annual, 2001 are available as self-extracting executable files in ASCII TXT or CSV file format. This volume emphasizes information for 2001, although some tables show a five-year history. Please read the file entitled README.V1 for a description and documentation of information included in this file. Also available are files containing the following data: Summary Statistics - Natural Gas in the United States, 1997-2001 (Table 1) ASCII TXT, and Natural Gas Supply and Disposition by State, 2001 (Table 2) ASCII TXT.

304

,"Mississippi Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

"N3050MS3","N3010MS3","N3020MS3","N3035MS3","NA1570SMS3","N3045MS3" "Date","Mississippi Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Mississippi Natural Gas...

305

Natural Gas Monthly  

Reports and Publications (EIA)

Highlights activities, events, and analyses associated with the natural gas industry. Volume and price data are presented each month for natural gas production, distribution, consumption, and interstate pipeline activities. Producer related activities and underground storage data are also reported.

2014-01-01T23:59:59.000Z

306

Natural gas annual 1996  

SciTech Connect

This document provides information on the supply and disposition of natural gas to a wide audience. The 1996 data are presented in a sequence that follows natural gas from it`s production to it`s end use.

NONE

1997-09-01T23:59:59.000Z

307

,"Connecticut Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3010CT3","N3020CT3","N3035CT3","N3045CT3" "Date","Natural Gas Citygate Price in Connecticut (Dollars per Thousand Cubic Feet)","Connecticut Price of Natural Gas Delivered to...

308

Natural Gas Weekly Update  

NLE Websites -- All DOE Office Websites (Extended Search)

Natural Gas Rotary Rig Count Rises to Highest Level since February 2009. The natural gas rotary rig count was 992 as of Friday, August 13, according to data released by Baker...

309

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

. Home | Petroleum | Gasoline | Diesel | Propane | Natural Gas | Electricity | Coal | Nuclear Renewables | Alternative Fuels | Prices | States | International | Country Analysis...

310

Natural gas annual 1994  

SciTech Connect

The Natural Gas Annual provides information on the supply and disposition of natural gas to a wide audience including industry, consumers, Federal and State agencies, and educational institutions. The 1994 data are presented in a sequence that follows natural gas (including supplemental supplies) from its production to its end use. This is followed by tables summarizing natural gas supply and disposition from 1990 to 1994 for each Census Division and each State. Annual historical data are shown at the national level.

NONE

1995-11-17T23:59:59.000Z

311

Natural gas annual 1995  

SciTech Connect

The Natural Gas Annual provides information on the supply and disposition of natural gas to a wide audience including industry, consumers, Federal and State agencies, and educational institutions. The 1995 data are presented in a sequence that follows natural gas (including supplemental supplies) from its production to its end use. This is followed by tables summarizing natural gas supply and disposition from 1991 to 1995 for each Census Division and each State. Annual historical data are shown at the national level.

NONE

1996-11-01T23:59:59.000Z

312

STEO September 2012 - natural gas production  

U.S. Energy Information Administration (EIA) Indexed Site

natural gas production at record high, inventories most natural gas production at record high, inventories most ever at start of heating season on Nov. 1 U.S. marketed natural gas production is expected to rise by 2.6 billion cubic feet per day this year to a record 68.9 billion cubic feet per day, said the U.S. Energy Information Administration in its new monthly short-term energy outlook for September. EIA analyst Katherine Teller explains: "This strong growth in production was driven in large part by production in Pennsylvania's Marcellus shale formation where drilling companies are using hydraulic fracturing to free the trapped gas." The increase in production, along with the large natural gas inventories left over from last winter because of warmer temperatures, will push U.S. gas inventories to a record high of nearly

313

Patent analysis to identify shale gas development in China and the United States  

Science Journals Connector (OSTI)

Abstract Shale gas has become an increasingly important form of hydrocarbon energy, and related technologies reflect the geographical characteristics of the countries where the gas is extracted and stored. The United States (U.S.) produces most of the world’s shale gas, while China has the world’s largest shale gas reserves. In this research, we focused on identifying the trends in shale-gas related technologies registered to the United States Patent and Trademark Office (USPTO) and to the State Intellectual Property Office of the People’s Republic of China (SIPO) respectively. To cluster shale-gas related technologies, we text-mined the abstracts of patent specifications. It was found that in the U.S., the key advanced technologies were related to hydraulic fracturing, horizontal drilling, and slick water areas, whereas China had a focus on proppants. The results of our study are expected to assist energy experts in designing energy policies related to technology importation.

Woo Jin Lee; So Young Sohn

2014-01-01T23:59:59.000Z

314

Natural Gas Reforming  

Energy.gov (U.S. Department of Energy (DOE))

Natural gas reforming is an advanced and mature production process that builds upon the existing natural gas pipeline delivery infrastructure. Today, 95% of the hydrogen produced in the United States is made by natural gas reforming in large central plants. This technology is an important pathway for near-term hydrogen production.

315

Total Natural Gas Gross Withdrawals (Summary)  

NLE Websites -- All DOE Office Websites (Extended Search)

Power Price Gross Withdrawals Gross Withdrawals From Gas Wells Gross Withdrawals From Oil Wells Gross Withdrawals From Shale Gas Wells Gross Withdrawals From Coalbed Wells...

316

Demonstration projects for coalbed methane and Devonian shale gas: Final report. [None  

SciTech Connect

In 1979, the US Department of Energy provided the American Public Gas Association (APGA) with a grant to demonstrate the feasibility of bringing unconventional gas such as methane produced from coalbeds or Devonian Shale directly into publicly owned utility system distribution lines. In conjunction with this grant, a seven-year program was initiated where a total of sixteen wells were drilled for the purpose of providing this untapped resource to communities who distribute natural gas. While coalbed degasification ahead of coal mining was already a reality in several parts of the country, the APGA demonstration program was aimed at actual consumer use of the gas. Emphasis was therefore placed on degasification of coals with high methane gas content and on utilization of conventional oil field techniques. 13 figs.

Verrips, A.M.; Gustavson, J.B.

1987-04-01T23:59:59.000Z

317

EIA - Natural Gas Pipeline Network - Natural Gas Pipeline Compressor...  

Gasoline and Diesel Fuel Update (EIA)

Compressor Stations Illustration About U.S. Natural Gas Pipelines - Transporting Natural Gas based on data through 20072008 with selected updates U.S. Natural Gas Pipeline...

318

Analysis of the structural parameters that influence gas production from the Devonian shale. Annual progress report, 1979-1980  

SciTech Connect

The executive study presents the results and progress of efforts toward understanding shale gas production from the Devonian shale in Appalachia. A correlation was found between the geochemical parameters of the shale in eastern Kentucky and shale gas production there. Tasks on resource inventory tasks and shale characterization include regional structure studies, production studies, geophysical studies, structure studies, fracture density and orientation, and fracture studies. (DLC)

Negus-de Wys, J.; Dixon, J. M.; Evans, M. A.; Lee, K. D.; Ruotsala, J. E.; Wilson, T. H.; Williams, R. T.

1980-10-01T23:59:59.000Z

319

Characterization of Gas Shales by X-ray Raman Spectroscopy | Stanford  

NLE Websites -- All DOE Office Websites (Extended Search)

Characterization of Gas Shales by X-ray Raman Spectroscopy Characterization of Gas Shales by X-ray Raman Spectroscopy Thursday, February 23, 2012 - 10:30am SSRL Third Floor Conference Room 137-322 Drew Pomerantz, Schlumberger Unconventional hydrocarbon resources such as gas shale and oil-bearing shale have emerged recently as economically viable sources of energy, dramatically altering America's energy landscape. Despite their importance, the basic chemistry and physics of shales are not understood as well as conventional reservoirs. In particular, shales are unique in that they contain kerogen, a complex organic solid that controls factors such as the amount of hydrocarbon that can be produced from the reservoir and the rate at which the hydrocarbon is produced. The industry's current understanding of the chemical composition of kerogen is limited, preventing detailed

320

Characterization of Gas Shales by X-ray Raman Spectroscopy | Stanford  

NLE Websites -- All DOE Office Websites (Extended Search)

Characterization of Gas Shales by X-ray Raman Spectroscopy Characterization of Gas Shales by X-ray Raman Spectroscopy Monday, May 14, 2012 - 3:30pm SSRL Conference Room 137-322 Drew Pomerantz, Schlumberger Unconventional hydrocarbon resources such as gas shale and oil-bearing shale have emerged recently as economically viable sources of energy, dramatically altering America's energy landscape. Despite their importance, the basic chemistry and physics of shales are not understood as well as conventional reservoirs. In particular, shales are unique in that they contain kerogen, a complex organic solid that controls factors such as the amount of hydrocarbon that can be produced from the reservoir and the rate at which the hydrocarbon is produced. The industry's current understanding of the chemical composition of kerogen is limited, preventing detailed

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


321

The competition situation analysis of shale gas industry in China: Applying Porter’s five forces and scenario model  

Science Journals Connector (OSTI)

Abstract With the increasing of energy demand and environmental pressure, China government has been exploring a way to diversify energy supply. Shale gas development is becoming an important energy strategy in China in recent years due to giant shale gas reserves. However, the shale gas market is preliminarily shaping in China, so that many factors have great influence on its competition. To find these factors and to control them rationally is good for the cultivating Chinese shale gas market. Five forces model for industry analysis puts an insight into the competitive landscape of shale gas market by showing the forces of supplier power, buyer power, threat of substitution, barriers to entry, and degree of rivalry. Illustrating the key factors that affect competitive landscape provides a view into the situation of shale gas industry. The variation tendency of shale gas industry is analyzed by setting various scenarios. Finally some suggestions are proposed in order to keep the development of shale gas industry positively.

Wu Yunna; Yang Yisheng

2014-01-01T23:59:59.000Z

322

Evaluation of highly thermally mature shale-gas reservoirs in complex structural parts of the Sichuan Basin  

Science Journals Connector (OSTI)

Successful exploration and development of shale-gas in the United States and Canada suggest ... is regarded as a strong potential play for shale-gas with the following significant features: (1)...R...o>2.5%); (4)...

Tonglou Guo ???

2013-12-01T23:59:59.000Z

323

Microsoft Word - Shale Gas Primer Update v2  

NLE Websites -- All DOE Office Websites (Extended Search)

by: NATIONAL ENERGY TECHNOLOGY LABORATORY (NETL) Strategic Center for Natural Gas and Oil September 2013 Disclaimer: Reference herein to any specific commercial product,...

324

Production decline analysis of horizontal well in gas shale reservoirs.  

E-Print Network (OSTI)

??The major factor influencing the increase of natural gas use is the rise in its global demand. Due to the relentlessly increasing demand, there have… (more)

Adekoya, Folarin.

2009-01-01T23:59:59.000Z

325

Natural Gas Annual 2006  

Gasoline and Diesel Fuel Update (EIA)

6 6 Released: October 31, 2007 The Natural Gas Annual 2006 Summary Highlights provides an overview of the supply and disposition of natural gas in 2006 and is intended as a supplement to the Natural Gas Annual 2006. The Natural Gas Annual 2006 Summary Highlights provides an overview of the supply and disposition of natural gas in 2006 and is intended as a supplement to the Natural Gas Annual 2006. Natural Gas Annual --- Full report in PDF (5 MB) Special Files --- All CSV files contained in a self-extracting executable file. Respondent/Company Level Natural Gas Data Files Annual Natural and Supplemental Gas Supply and Disposition Company level data (1996 to 2007) as reported on Form EIA-176 are provided in the EIA-176 Query System and selected data files. EIA-191A Field Level Underground Natural Gas Storage Data: Detailed annual data (2006 and 2007) of storage field capacity, field type, and maximum deliverability as of December 31st of the report year, as reported by operators of all U.S. underground natural gas storage fields.

326

Natural Gas Annual, 2004  

Gasoline and Diesel Fuel Update (EIA)

4 4 EIA Home > Natural Gas > Natural Gas Data Publications Natural Gas Annual, 2004 Natural Gas Annual 2004 Release date: December 19, 2005 Next release date: January 2007 The Natural Gas Annual, 2004 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2004. Summary data are presented for each State for 2000 to 2004. The data that appear in the tables of the Natural Gas Annual, 2004 is available as self-extracting executable file or CSV file format. This volume emphasizes information for 2004, although some tables show a five-year history. Please read the file entitled README.V1 for a description and documentation of information included in this file.

327

New Advances in Shale Gas Reservoir Analysis Using Water Flowback Data  

E-Print Network (OSTI)

Shale gas reservoirs with multistage hydraulic fractures are commonly characterized by analyzing long-term gas production data, but water flowback data is usually not included in the analysis. However, this work shows there can be benefits...

Alkouh, Ahmad

2014-04-04T23:59:59.000Z

328

Mechanism model for shale gas transport considering diffusion, adsorption/desorption and Darcy flow  

Science Journals Connector (OSTI)

To improve the understanding of the transport mechanism in shale gas reservoirs and build a theoretical basic for ... on productivity evaluation and efficient exploitation, various gas transport mechanisms within...

Ming-qiang Wei ???; Yong-gang Duan ???…

2013-07-01T23:59:59.000Z

329

Venting and leaking of methane from shale gas development: response to Cathles et al.  

Science Journals Connector (OSTI)

In April 2011, we published the first comprehensive analysis of greenhouse gas (GHG) emissions from shale gas obtained by hydraulic fracturing, with a focus...2012...). Here, we respond to those criticisms. We st...

Robert W. Howarth; Renee Santoro; Anthony Ingraffea

2012-07-01T23:59:59.000Z

330

Regional Variation in Water-Related Impacts of Shale Gas Development and Implications for Emerging International Plays  

E-Print Network (OSTI)

Regional Variation in Water-Related Impacts of Shale Gas Development and Implications for Emerging understanding of the unique regional issues that shale gas development poses. This manuscript highlights the variation in regional water issues associated with shale gas development in the U.S. and the approaches

Alvarez, Pedro J.

331

Dependence of gas shale fracture permeability on effective stress and reservoir pressure: Model match and insights  

Science Journals Connector (OSTI)

Abstract Although permeability data for different gas shales have been reported previously and attempts have been made to match permeability with empirical correlations, theoretical studies of shale permeability modelling are lacking. In this work, the correlation between fracture permeability and effective stress is established for gas shales through theoretical derivation. This model is able to match the permeability data for different gas shales. The matching results for the gas shale studied show that the model coefficient, fracture compressibility, which decreases as initial shale permeability increases, is strongly affected by the flow directions and varies with the shale’s mineralogical composition. Furthermore, the correlation between fracture permeability and reservoir pressure has also been established. Sensitivity study shows that fracture permeability may decrease significantly with the reservoir pressure drawdown. Moreover, the horizontal fracture permeability drop is found to be significantly affected by the Young’s modulus’ anisotropic ratio (Eh/Ev). The insights gained warrant further theoretical and experimental studies to evaluate shale fracture permeability.

Dong Chen; Zhejun Pan; Zhihui Ye

2015-01-01T23:59:59.000Z

332

Evaluation of Production of Oil & Gas From Oil Shale in the Piceance Basin  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Evaluation of Production of Oil & Gas From Oil Shale in the Evaluation of Production of Oil & Gas From Oil Shale in the Piceance Basin Evaluation of Production of Oil & Gas From Oil Shale in the Piceance Basin The purpose of this paper is to provide the public and policy makers accurate estimates of energy efficiencies, water requirements, water availability, and CO2 emissions associated with the development of the 60 percent portion of the Piceance Basin where economic potential is the greatest, and where environmental conditions and societal concerns and controversy are the most challenging: i.e., the portion of the Piceance where very high quality oil shale resources and useful ground water co-exist. Evaluation of Energy Efficiency, Water Requirements and Availability, and CO2 Emissions Associated With the Production of Oil & Gas From Oil Shale in

333

Interdependency of electricity and natural gas markets in the United States : a dynamic computational model  

E-Print Network (OSTI)

Due to high storage costs and limited storage availability, natural gas is generally used as a just-in- time resource that needs to be delivered as it is consumed. With the shale gas revolution, coal retirements and ...

Jenkins, Sandra Elizabeth

2014-01-01T23:59:59.000Z

334

Shale Oil and Gas, Frac Sand, and Watershed  

E-Print Network (OSTI)

;Bakken Oil Shale scope · Light, Sweet crude ­ ideal for automotive fuels and mid-size refineries (Midwest

Minnesota, University of

335

Natural Gas Annual 2007  

Gasoline and Diesel Fuel Update (EIA)

7 7 Released: January 28, 2009 The Natural Gas Annual 2007 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2007. Summary data are presented for each State for 2003 to 2007. The Natural Gas Annual 2007 Summary Highlights provides an overview of the supply and disposition of natural gas in 2007 and is intended as a supplement to the Natural Gas Annual 2007. Natural Gas Annual --- Full report in PDF (5 MB) Special Files --- All CSV files contained in a self-extracting executable file. Respondent/Company Level Natural Gas Data Files Annual Natural and Supplemental Gas Supply and Disposition Company level data (1996 to 2007) as reported on Form EIA-176 are provided in the EIA-176 Query System and selected data files. EIA-191A Field Level Underground Natural Gas Storage Data: Detailed annual data (2005 to 2007) of storage field capacity, field type, and maximum deliverability as of December 31st of the report year, as reported by operators of all U.S. underground natural gas storage fields.

336

Natural Gas Annual, 2003  

Gasoline and Diesel Fuel Update (EIA)

3 3 EIA Home > Natural Gas > Natural Gas Data Publications Natural Gas Annual, 2003 Natural Gas Annual 2003 Release date: December 22, 2004 Next release date: January 2006 The Natural Gas Annual, 2003 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2003. Summary data are presented for each State for 1999 to 2003. “The Natural Gas Industry and Markets in 2003” is a special report that provides an overview of the supply and disposition of natural gas in 2003 and is intended as a supplement to the Natural Gas Annual 2003. The data that appear in the tables of the Natural Gas Annual, 2003 is available as self-extracting executable file or CSV file format. This volume emphasizes information for 2003, although some tables show a five-year history. Please read the file entitled README.V1 for a description and documentation of information included in this file.

337

Natural Gas Annual, 2002  

Gasoline and Diesel Fuel Update (EIA)

2 2 EIA Home > Natural Gas > Natural Gas Data Publications Natural Gas Annual, 2002 Natural Gas Annual 2002 Release date: January 29, 2004 Next release date: January 2005 The Natural Gas Annual, 2002 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2002. Summary data are presented for each State for 1998 to 2002. “The Natural Gas Industry and Markets in 2002” is a special report that provides an overview of the supply and disposition of natural gas in 2002 and is intended as a supplement to the Natural Gas Annual 2002. Changes to data sources for this Natural Gas Annual, as a result of ongoing data quality efforts, have resulted in revisions to several data series. Production volumes have been revised for the Federal offshore and several States. Several data series based on the Form EIA-176, including deliveries to end-users in several States, were also revised. Additionally, revisions have been made to include updates to the electric power and vehicle fuel end-use sectors.

338

Natural Gas Annual 2009  

Gasoline and Diesel Fuel Update (EIA)

9 9 Released: December 28, 2010 The Natural Gas Annual 2009 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2009. Summary data are presented for each State for 2005 to 2009. The Natural Gas Annual 2009 Summary Highlights provides an overview of the supply and disposition of natural gas in 2009 and is intended as a supplement to the Natural Gas Annual 2009. Natural Gas Annual --- Full report in PDF (5 MB) Special Files --- All CSV files contained in a self-extracting executable file. Respondent/Company Level Natural Gas Data Files Annual Natural and Supplemental Gas Supply and Disposition Company level data (1996 to 2009) as reported on Form EIA-176 are provided in the EIA-176 Query System and selected data files. EIA-191A Field Level Underground Natural Gas Storage Data: Detailed annual data (2005 to 2009) of storage field capacity, field type, and maximum deliverability as of December 31st of the report year, as reported by operators of all U.S. underground natural gas storage fields.

339

Natural Gas Annual 2008  

Gasoline and Diesel Fuel Update (EIA)

8 8 Released: March 2, 2010 The Natural Gas Annual 2008 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2008. Summary data are presented for each State for 2004 to 2008. The Natural Gas Annual 2008 Summary Highlights provides an overview of the supply and disposition of natural gas in 2008 and is intended as a supplement to the Natural Gas Annual 2008. Natural Gas Annual --- Full report in PDF (5 MB) Special Files --- All CSV files contained in a self-extracting executable file. Respondent/Company Level Natural Gas Data Files Annual Natural and Supplemental Gas Supply and Disposition Company level data (1996 to 2008) as reported on Form EIA-176 are provided in the EIA-176 Query System and selected data files. EIA-191A Field Level Underground Natural Gas Storage Data: Detailed annual data (2005 to 2008) of storage field capacity, field type, and maximum deliverability as of December 31st of the report year, as reported by operators of all U.S. underground natural gas storage fields.

340

Temporal Changes in Microbial Ecology and Geochemistry in Produced Water from Hydraulically Fractured Marcellus Shale Gas Wells  

Science Journals Connector (OSTI)

These results provide insight into the temporal trajectory of subsurface microbial communities after “fracking” and have important implications for the enrichment of microbes potentially detrimental to well infrastructure and natural gas fouling during this process. ... Interpretative modeling shows that advective transport could require up to tens of thousands of years to move contaminants to the surface, but also that fracking the shale could reduce that transport time to tens or hundreds of years. ... reflecting the significant changes caused by fracking the shale, which could allow advective transport to aquifers in less than 10 years. ...

Maryam A. Cluff; Angela Hartsock; Jean D. MacRae; Kimberly Carter; Paula J. Mouser

2014-05-06T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


341

Secretary of Energy Advisory Board Subcommittee Releases Shale...  

Office of Environmental Management (EM)

environmental management of shale gas, which has rapidly grown to nearly 30 percent of natural gas production in the United States. Increased transparency and a focus on best...

342

Numerical investigation of gas flow rate in shale gas reservoirs with nanoporous media  

Science Journals Connector (OSTI)

Abstract Theoretical analysis of transport mechanism of gas flow in shale gas reservoirs with nanoporous media was carried out on the basis of molecular kinetic theory. The motion equation and mathematical model of shale gas transport in multi-scale medium are established in this article. The pressure distribution equation of radial flow was derived, and the computing method of the control area of gas well was presented. Additionally, the volume flow rate equations of vertical and horizontal fractured wells were obtained. Through Newton iterative method, volume flow rate was analyzed, considering various factors such as production pressure drawdown, fracture half-length, fracture conductivity, fracture spacing and diffusion coefficient. According to the numerical results, the volume flow rate of the gas well increases when the diffusion coefficient grows. Consequently diffusion in shale gas reservoirs with nanoporous media plays an important role. With increase of fracture half-length, the volume flow rate increases first and then tends towards stability. Moreover, for certain length of the horizontal wellbore, when fracture spacing increases and the number of the fractures lessens, the control area and the volume flow rate of the gas well decreases. Therefore, there is an optimum allocation among these factors to achieve maximum volume flow.

Hongqing Song; Mingxu Yu; Weiyao Zhu; Peng Wu; Yu Lou; Yuhe Wang; John Killough

2015-01-01T23:59:59.000Z

343

Natural Gas Weekly Update  

Annual Energy Outlook 2012 (EIA)

of 1 Tcf from the 1994 estimate of 51 Tcf. Ultimate potential for natural gas is a science-based estimate of the total amount of conventional gas in the province and is an...

344

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

2, 2011 at 2:00 P.M. 2, 2011 at 2:00 P.M. Next Release: Thursday, May 19, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, May 11, 2011) Natural gas prices fell across the board as oil prices dropped steeply along with most other major commodities. At the Henry Hub, the natural gas spot price fell 36 cents from $4.59 per million Btu (MMBtu) on Wednesday, May 4, to $4.23 per MMBtu on Wednesday, May 11. At the New York Mercantile Exchange, the price of the near-month natural gas contract (June 2011) dropped almost 9 percent, falling from $4.577 per MMBtu last Wednesday to $4.181 yesterday. Working natural gas in storage rose by 70 billion cubic feet (Bcf) to 1,827 Bcf, according to EIAÂ’s Weekly Natural Gas Storage Report.

345

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

2, 2010 at 2:00 P.M. 2, 2010 at 2:00 P.M. Next Release: Thursday, July 29, 2010 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, July 21, 2010) Natural gas prices rose across market locations in the lower 48 States during the report week. The Henry Hub natural gas spot price rose 31 cents, or 7 percent, during the week, averaging $4.70 per million Btu (MMBtu) yesterday, July 21. At the New York Mercantile Exchange (NYMEX), the price of the August 2010 natural gas futures contract for delivery at the Henry Hub rose about 21 cents, or 5 percent, ending the report week at $4.513 per MMBtu. Working natural gas in storage increased to 2,891 billion cubic feet (Bcf) as of Friday, July 16, according to EIAÂ’s Weekly Natural Gas Storage

346

Zero Discharge Water Management for Horizontal Shale Gas Well Development  

NLE Websites -- All DOE Office Websites (Extended Search)

Discharge Water Management for Discharge Water Management for Horizontal Shale Gas Well Development Final Report Start Date: October 1, 2009 End Date: March 31, 2012 Authors: Paul Ziemkiewicz, PhD Jennifer Hause Raymond Lovett, PhD David Locke Harry Johnson Doug Patchen, PG Report Date Issued: June 2012 DOE Award #: DE-FE0001466 Submitting Organization: West Virginia Water Research Institute West Virginia University PO Box 6064 Morgantown, WV 26506-6064 FilterSure, Inc. PO Box 1277 McLean, VA 22101 ShipShaper, LLP PO Box 2 Morgantown, WV 26507 2 | P a g e Acknowledgment "This material is based upon work supported by the Department of Energy under Award Number DE-FE0001466." Disclaimer "This report was prepared as an account of work sponsored by an agency of the United States

347

Shale Natural Gas Reserves Revision Decreases  

Gasoline and Diesel Fuel Update (EIA)

3,642 9,491 23,455 2009-2011 3,642 9,491 23,455 2009-2011 Alaska 0 0 0 2009-2011 Lower 48 States 3,642 9,491 23,455 2009-2011 Alabama 2 0 2009-2010 Arkansas 261 126 141 2009-2011 California 0 2011-2011 San Joaquin Basin Onshore 0 2011-2011 Colorado 0 2 0 2009-2011 Kentucky 3 43 11 2009-2011 Louisiana 826 1,878 3,882 2009-2011 North 826 1,878 3,882 2009-2011 Michigan 276 325 151 2009-2011 Montana 34 16 14 2009-2011 New Mexico 2 11 190 2009-2011 East 2 2 146 2009-2011 West 0 9 44 2009-2011 North Dakota 17 343 290 2009-2011 Ohio 0 0 2009-2010 Oklahoma 865 2,117 5,024 2009-2011 Pennsylvania 53 1,583 3,322 2009-2011 Texas 1,267 2,425 10,263 2009-2011 RRC District 1 0 251 48 2009-2011 RRC District 2 Onshore 5 402 2010-2011 RRC District 3 Onshore 0 0 0 2009-2011

348

Shale Natural Gas Reserves Revision Increases  

Gasoline and Diesel Fuel Update (EIA)

6,363 10,661 25,993 2009-2011 6,363 10,661 25,993 2009-2011 Alaska 0 0 0 2009-2011 Lower 48 States 6,363 10,661 25,993 2009-2011 Alabama 0 0 2009-2010 Arkansas 1,585 861 502 2009-2011 California 912 2011-2011 San Joaquin Basin Onshore 912 2011-2011 Colorado 0 1 4 2009-2011 Kentucky 44 3 44 2009-2011 Louisiana 636 1,856 2,002 2009-2011 North 636 1,856 2,002 2009-2011 Michigan 149 165 140 2009-2011 Montana 42 14 14 2009-2011 New Mexico 2 1 83 2009-2011 East 0 1 68 2009-2011 West 2 0 15 2009-2011 North Dakota 119 528 439 2009-2011 Ohio 0 0 2009-2010 Oklahoma 1,373 1,352 3,709 2009-2011 Pennsylvania 299 1,994 5,238 2009-2011 Texas 2,052 3,580 12,185 2009-2011 RRC District 1 1 322 2,141 2009-2011 RRC District 2 Onshore 6 388 2010-2011 RRC District 3 Onshore

349

Shale Natural Gas New Field Discoveries  

Gasoline and Diesel Fuel Update (EIA)

868 557 232 2009-2011 868 557 232 2009-2011 Alaska 0 0 0 2009-2011 Lower 48 States 868 557 232 2009-2011 Alabama 0 0 2009-2010 Arkansas 0 0 0 2009-2011 California 0 2011-2011 San Joaquin Basin Onshore 0 2011-2011 Colorado 4 0 0 2009-2011 Kentucky 0 0 0 2009-2011 Louisiana 244 48 0 2009-2011 North 244 48 0 2009-2011 Michigan 0 2 0 2009-2011 Montana 0 0 0 2009-2011 New Mexico 0 0 0 2009-2011 East 0 0 0 2009-2011 West 0 0 0 2009-2011 North Dakota 6 8 2 2009-2011 Ohio 0 0 2009-2010 Oklahoma 0 54 37 2009-2011 Pennsylvania 120 49 162 2009-2011 Texas 353 396 31 2009-2011 RRC District 1 353 114 20 2009-2011 RRC District 2 Onshore 282 0 2010-2011 RRC District 3 Onshore 0 0 0 2009-2011 RRC District 4 Onshore 0 0 0 2009-2011 RRC District 5 0 0 0 2009-2011

350

Shale Natural Gas New Field Discoveries  

Gasoline and Diesel Fuel Update (EIA)

868 557 232 2009-2011 868 557 232 2009-2011 Alaska 0 0 0 2009-2011 Lower 48 States 868 557 232 2009-2011 Alabama 0 0 2009-2010 Arkansas 0 0 0 2009-2011 California 0 2011-2011 San Joaquin Basin Onshore 0 2011-2011 Colorado 4 0 0 2009-2011 Kentucky 0 0 0 2009-2011 Louisiana 244 48 0 2009-2011 North 244 48 0 2009-2011 Michigan 0 2 0 2009-2011 Montana 0 0 0 2009-2011 New Mexico 0 0 0 2009-2011 East 0 0 0 2009-2011 West 0 0 0 2009-2011 North Dakota 6 8 2 2009-2011 Ohio 0 0 2009-2010 Oklahoma 0 54 37 2009-2011 Pennsylvania 120 49 162 2009-2011 Texas 353 396 31 2009-2011 RRC District 1 353 114 20 2009-2011 RRC District 2 Onshore 282 0 2010-2011 RRC District 3 Onshore 0 0 0 2009-2011 RRC District 4 Onshore 0 0 0 2009-2011 RRC District 5 0 0 0 2009-2011

351

Gas seal for an in situ oil shale retort and method of forming thermal barrier  

DOE Patents (OSTI)

A gas seal is provided in an access drift excavated in a subterranean formation containing oil shale. The access drift is adjacent an in situ oil shale retort and is in gas communication with the fragmented permeable mass of formation particles containing oil shale formed in the in situ oil shale retort. The mass of formation particles extends into the access drift, forming a rubble pile of formation particles having a face approximately at the angle of repose of fragmented formation. The gas seal includes a temperature barrier which includes a layer of heat insulating material disposed on the face of the rubble pile of formation particles and additionally includes a gas barrier. The gas barrier is a gas-tight bulkhead installed across the access drift at a location in the access drift spaced apart from the temperature barrier.

Burton, III, Robert S. (Mesa, CO)

1982-01-01T23:59:59.000Z

352

,"Colorado Natural Gas Prices"  

U.S. Energy Information Administration (EIA) Indexed Site

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","Colorado Natural Gas Prices",8,"Monthly","112014","1151989" ,"Release Date:","1302015"...

353

,"California Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 5","Underground Storage",4,"Annual",2013,"6301967" ,"Data 6","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 7","Consumption",11,"Annual",2013,...

354

,"Maryland Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1999" ,"Data 4","Underground Storage",4,"Annual",2013,"6301967" ,"Data 5","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 6","Consumption",10,"Annual",2013,...

355

,"Georgia Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1999" ,"Data 3","Underground Storage",3,"Annual",1975,"6301974" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",8,"Annual",2013,"...

356

,"Massachusetts Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 3","Underground Storage",3,"Annual",1975,"6301967" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",8,"Annual",2013,"...

357

,"Oregon Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1979" ,"Data 3","Underground Storage",4,"Annual",2013,"6301973" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",10,"Annual",2013,...

358

,"Texas Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 5","Underground Storage",4,"Annual",2013,"6301967" ,"Data 6","Liquefied Natural Gas Storage",1,"Annual",2013,"6302012" ,"Data 7","Consumption",11,"Annual",2013,...

359

,"Washington Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 3","Underground Storage",4,"Annual",2013,"6301967" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",9,"Annual",2013,"...

360

,"Nebraska Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 3","Underground Storage",4,"Annual",2013,"6301967" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",11,"Annual",2013,...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


361

,"Pennsylvania Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 4","Underground Storage",4,"Annual",2013,"6301967" ,"Data 5","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 6","Consumption",11,"Annual",2013,...

362

,"Alaska Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 5","Underground Storage",6,"Annual",2013,"6301973" ,"Data 6","Liquefied Natural Gas Storage",3,"Annual",2013,"6301969" ,"Data 7","Consumption",11,"Annual",2013,...

363

,"Maine Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 2","Imports and Exports",2,"Annual",2013,"6301982" ,"Data 3","Liquefied Natural Gas Storage",3,"Annual",2013,"6301981" ,"Data 4","Consumption",8,"Annual",2013,"...

364

,"Minnesota Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 3","Underground Storage",4,"Annual",2013,"6301973" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",8,"Annual",2013,"...

365

,"Idaho Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 3","Underground Storage",2,"Annual",1975,"6301974" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301981" ,"Data 5","Consumption",9,"Annual",2013,"...

366

,"Wisconsin Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 2","Underground Storage",3,"Annual",1975,"6301973" ,"Data 3","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 4","Consumption",8,"Annual",2013,"...

367

,"Louisiana Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1982" ,"Data 5","Underground Storage",4,"Annual",2013,"6301967" ,"Data 6","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 7","Consumption",11,"Annual",2013,...

368

,"Delaware Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 2","Underground Storage",3,"Annual",1975,"6301967" ,"Data 3","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 4","Consumption",9,"Annual",2013,"...

369

,"Colorado Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 4","Underground Storage",4,"Annual",2013,"6301967" ,"Data 5","Liquefied Natural Gas Storage",2,"Annual",2013,"6301980" ,"Data 6","Consumption",11,"Annual",2013,...

370

,"Tennessee Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 3","Underground Storage",4,"Annual",2013,"6301968" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",11,"Annual",2013,...

371

,"Arkansas Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 4","Underground Storage",4,"Annual",2013,"6301967" ,"Data 5","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 6","Consumption",11,"Annual",2013,...

372

,"Nevada Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

301967" ,"Data 2","Production",11,"Annual",2013,"6301991" ,"Data 3","Liquefied Natural Gas Storage",3,"Annual",2013,"6301982" ,"Data 4","Consumption",10,"Annual",2013,...

373

,"Connecticut Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 2","Underground Storage",3,"Annual",1996,"6301973" ,"Data 3","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 4","Consumption",8,"Annual",2013,"...

374

,"Virginia Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 4","Underground Storage",4,"Annual",2013,"6301967" ,"Data 5","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 6","Consumption",10,"Annual",2013,...

375

,"Alabama Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 4","Underground Storage",4,"Annual",2013,"6301968" ,"Data 5","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 6","Consumption",11,"Annual",2013,...

376

,"Indiana Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1967" ,"Data 3","Underground Storage",4,"Annual",2013,"6301967" ,"Data 4","Liquefied Natural Gas Storage",3,"Annual",2013,"6301980" ,"Data 5","Consumption",10,"Annual",2013,...

377

Unconventional Natural Gas  

NLE Websites -- All DOE Office Websites (Extended Search)

(NETL) Anthony Zammerilli General Engineer Strategic Center for Natural Gas and Oil Energy Sector Planning and Analysis (ESPA) Robert C. Murray, Thomas Davis, and James...

378

Natural gas annual 1997  

SciTech Connect

The Natural Gas Annual provides information on the supply and disposition of natural gas to a wide audience including industry, consumers, Federal and State agencies, and educational institutions. The 1997 data are presented in a sequence that follows natural gas (including supplemental supplies) from its production to its end use. This is followed by tables summarizing natural gas supply and disposition from 1993 to 1997 for each Census Division and each State. Annual historical data are shown at the national level. 27 figs., 109 tabs.

NONE

1998-10-01T23:59:59.000Z

379

,"California Natural Gas Prices"  

U.S. Energy Information Administration (EIA) Indexed Site

Name","Description"," Of Series","Frequency","Latest Data for" ,"Data 1","California Natural Gas Prices",13,"Annual",2013,"6301967" ,"Release Date:","10312014"...

380

EIA - Natural Gas Publications  

Gasoline and Diesel Fuel Update (EIA)

data collected on Form EIA-914 (Monthly Natural Gas Production Report) for Federal Offshore Gulf of Mexico, Texas, Louisiana, New Mexico, Oklahoma, Texas, Wyoming, Other States...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


381

NETL: Natural Gas Resources  

NLE Websites -- All DOE Office Websites (Extended Search)

Resources Significant volumes of natural gas can also be produced from tight (low permeability) sandstone reservoirs and coal seams, both unconventional reservoir rocks. NETL...

382

Natural Gas Weekly Update  

NLE Websites -- All DOE Office Websites (Extended Search)

imbalances. Northern Natural Gas Company declared a force majeure after an unplanned repair issue at the Spearman Compressor Station in Ochiltree County, Texas, on Friday,...

383

Air Impacts of Increased Natural Gas Acquisition, Processing, and Use: A Critical Review  

E-Print Network (OSTI)

Air Impacts of Increased Natural Gas Acquisition, Processing, and Use: A Critical Review to rapid and intensive development of many unconventional natural gas plays (e.g., shale gas, tight sand understanding of local and regional air quality impacts of natural gas extraction, production, and use. Air

Jackson, Robert B.

384

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

The Boston forum is open to the public. Additional information is available at http:www.energy.govnews3197.htm. Natural Gas Rig Count: The number of rigs drilling for natural...

385

FE-Funded Study Released on Key Factors Affecting China Shale Gas Development  

Energy.gov (U.S. Department of Energy (DOE))

As many people know, over the past decade the United States has experienced a shale gas revolution that has beneficially transformed its energy landscape. In witnessing this transformation, other nations with significant shale resources are understandably interested in pursuing the responsible development of their domestic reserves, and achieving for their people accompanying economic, energy security and environmental benefits.

386

2012 by the American Academy of Arts & Sciences Is Shale Gas Good for Climate Change?  

E-Print Network (OSTI)

- ence and Engineering at Harvard University, where he is also Direc- tor of the Center for the Environ fracturing ("fracking") techniques that greatly increase the permeability of the shale, vast reserves emissions overall. I argue that the main impact of shale gas on climate change is neither the reduced

Schrag, Daniel

387

Economic Incentives and Regulatory Framework for Shale Gas Well Site Reclamation in Pennsylvania  

Science Journals Connector (OSTI)

Economic Incentives and Regulatory Framework for Shale Gas Well Site Reclamation in Pennsylvania ... They also noted that economies of scale exist when more than one well is on each well pad, which is the norm for wells in the Marcellus Shale. ... Pennsylvania’s experience with bonding of coal mining sites may be indicative of what to expect. ...

Austin L. Mitchell; Elizabeth A. Casman

2011-10-10T23:59:59.000Z

388

Petrochemicals: Dow Chemical and oil company YPF explore shale gas in Argentina  

Science Journals Connector (OSTI)

With eyes on what could be the first shale gas project in Argentina, Dow Chemical has signed a memorandum of understanding with the Argentinian oil company YPF to develop a gas-rich area of the country. ... According to the U.S. Energy Information Administration and consulting firm Advanced Resources International, Argentina has 774 trillion cu ft of recoverable shale gas reserves, the third-largest amount after the U.S. and China. ...

ALEX TULLO

2013-04-08T23:59:59.000Z

389

Importance of Low Permeability Natural Gas Reservoirs (released in AEO2010)  

Reports and Publications (EIA)

Production from low-permeability reservoirs, including shale gas and tight gas, has become a major source of domestic natural gas supply. In 2008, low-permeability reservoirs accounted for about 40% of natural gas production and about 35% of natural gas consumption in the United States. Permeability is a measure of the rate at which liquids and gases can move through rock. Low-permeability natural gas reservoirs encompass the shale, sandstone, and carbonate formations whose natural permeability is roughly 0.1 millidarcies or below. (Permeability is measured in darcies.)

2010-01-01T23:59:59.000Z

390

Popular Epidemiology and “Fracking”: Citizens’ Concerns Regarding the Economic, Environmental, Health and Social Impacts of Unconventional Natural Gas Drilling Operations  

Science Journals Connector (OSTI)

Pennsylvania sits atop the Marcellus Shale, a reservoir of natural gas that was untapped until the 2004 introduction of unconventional natural gas drilling operations (UNGDO) in the state. Colloquially known as fracking

Martha Powers; Poune Saberi; Richard Pepino; Emily Strupp…

2014-11-01T23:59:59.000Z

391

EIA - Natural Gas Pipeline Network - Largest Natural Gas Pipeline...  

U.S. Energy Information Administration (EIA) Indexed Site

Interstate Pipelines Table About U.S. Natural Gas Pipelines - Transporting Natural Gas based on data through 20072008 with selected updates Thirty Largest U.S. Interstate Natural...

392

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

Impact of Interruptible Natural Gas Service A Snapshot of California Natural Gas Market: Status and Outlook EIA's Testimony on Natural Gas Supply and Demand Residential Natural Gas Price Brochure Status of Natural Gas Pipeline System Capacity Previous Issues of Natural Gas Weekly Update Natural Gas Homepage Overview Net additions to storage during the fourth week of April were estimated to have been over 100 Bcf-a record high level for the first month of the refill season. Compared to last year when only 36 Bcf or 1.2 Bcf per day were added to stocks in April, this year the industry appears to be taking advantage of the reduction in demand that typically occurs in April, the first shoulder month of the year, and the recent price declines. After beginning the week down, spot prices at the Henry Hub trended down most days last week to end trading on Friday at $4.49 per MMBtu-the lowest price since early November. On the NYMEX futures market, the near-month (June) contract also moved down most days and ended last week at $4.490-down $0.377 from the previous Friday. Some-early summer high temperatures last week in the Northeast and winter-like weather in the Rockies (See Temperature Map) (See Deviation from Normal Temperatures Map) appear to have had little impact on the natural gas markets as prices declined most days at most major locations.

393

,"Kansas Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

S3","N3050KS3","N3010KS3","N3020KS3","N3035KS3","NA1570SKS3","N3045KS3" "Date","Kansas Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Kansas Natural Gas Pipeline...

394

,"Wyoming Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050WY3","N3010WY3","N3020WY3","N3035WY3","NA1570SWY3","N3045WY3" "Date","Wyoming Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Wyoming Natural Gas...

395

,"Montana Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050MT3","N3010MT3","N3020MT3","N3035MT3","NA1570SMT3","N3045MT3" "Date","Montana Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Montana Natural Gas Imports...

396

,"Oklahoma Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050OK3","N3010OK3","N3020OK3","N3035OK3","NA1570SOK3","N3045OK3" "Date","Oklahoma Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Oklahoma Natural Gas...

397

,"Michigan Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050MI3","N3010MI3","N3020MI3","N3035MI3","NA1570SMI3","N3045MI3" "Date","Michigan Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Michigan Natural Gas...

398

,"Vermont Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","NA1480SVT3","N3050VT3","N3010VT3","N3020VT3","N3035VT3","N3045VT3" "Date","Vermont Natural Gas Imports Price (Dollars per Thousand Cubic Feet)","Vermont Natural Gas Pipeline...

399

,"Florida Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050FL3","N3010FL3","N3020FL3","N3035FL3","NA1570SFL3","N3045FL3" "Date","Florida Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Florida Natural Gas...

400

,"Kentucky Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050KY3","N3010KY3","N3020KY3","N3035KY3","NA1570SKY3","N3045KY3" "Date","Kentucky Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Kentucky Natural Gas...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


401

,"Ohio Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

SOH3","N3050OH3","N3010OH3","N3020OH3","N3035OH3","NA1570SOH3","N3045OH3" "Date","Ohio Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Ohio Natural Gas Pipeline...

402

,"Utah Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

SUT3","N3050UT3","N3010UT3","N3020UT3","N3035UT3","NA1570SUT3","N3045UT3" "Date","Utah Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Utah Natural Gas Pipeline...

403

Natural Gas Infrastructure Modernization  

Energy.gov (U.S. Department of Energy (DOE))

In order to help modernize the nation’s natural gas transmission and distribution systems and reduce methane emissions through common-sense standards, smart investments, and innovative research to advance the state of the art in natural gas system performance, the Department of Energy has launched several new initiatives and enhanced existing programs.

404

VALUING FLARED NATURAL GAS  

Science Journals Connector (OSTI)

LAST YEAR , enough natural gas to supply 27% of U.S. needs was burned off as waste around the world, according to a new report by the World Bank. Flared natural gas is a by-product of petroleum production and is not generally considered worth capture and ...

2007-09-10T23:59:59.000Z

405

Outlook for U.S. shale oil and gas  

NLE Websites -- All DOE Office Websites (Extended Search)

Argus Americas Crude Summit January 22, 2014 | Houston, TX By Adam Sieminski, EIA Administrator Six key plays account for nearly all recent growth in oil and natural gas production...

406

Chapter 8 - Natural Gas  

Science Journals Connector (OSTI)

Although natural gas is a nonrenewable resource, it is included for discussion because its sudden growth from fracking will impact the development and use of renewable fuels. Firms who are engaged in the development of processes that employ synthesis gas as an intermediate have concluded that the synthesis gas is more economically obtainable by steam reforming of natural gas than by gasification of waste cellulose. In some instances, firms have largely abandoned the effort to produce a renewable fuel as such, and in others firms are developing hybrid processes that employ natural gas in combination with a fermentation system. Moreover, natural gas itself is an attractive fuel for internal combustion engines since it can be the least expensive option on a cost per joule basis. It is also aided by its high octane number of 130.

Arthur M. Brownstein

2015-01-01T23:59:59.000Z

407

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

1, 2011 at 2:00 P.M. 1, 2011 at 2:00 P.M. Next Release: Thursday, April 28, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, April 20, 2011) Natural gas prices rose at most market locations during the week, as consumption increased. The Henry Hub spot price increased 19 cents from $4.14 per million Btu (MMBtu) on Wednesday, April 13 to $4.33 per MMBtu on Wednesday, April 20. Futures prices behaved similar to spot prices; at the New York Mercantile Exchange, the price of the near-month natural gas contract (May 2011) rose from $4.141 per MMBtu to $4.310 per MMBtu. Working natural gas in storage rose to 1,654 billion cubic feet (Bcf) as of Friday, April 15, according to EIAÂ’s Weekly Natural Gas

408

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

3, 2009 at 2:00 P.M. 3, 2009 at 2:00 P.M. Next Release: September 10, 2009 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, September 2, 2009) Natural gas prices posted significant decreases at both the spot and futures markets since last Wednesday. Spot prices fell at all market locations in the lower 48 States, with decreases ranging between 7 and 68 cents per million Btu (MMBtu). The price at the Henry Hub spot market fell to $2.25 per MMBtu, decreasing by 51 cents or 18 percent. As of yesterday, the price of natural gas at the Henry Hub was the lowest since February 15, 2002, when natural gas at this location traded at $2.18 per MMBtu. At the New York Mercantile Exchange (NYMEX), the natural gas futures

409

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

3, 2011 at 2:00 P.M. 3, 2011 at 2:00 P.M. Next Release: Thursday, June 30, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, June 22, 2011) Natural gas prices fell slightly at most market locations from Wednesday, June 15 to Wednesday, June 22. The Henry Hub price fell 10 cents from $4.52 per million Btu (MMBtu) last Wednesday to $4.42 per MMBtu yesterday. At the New York Mercantile Exchange, the price of the July 2011 near-month futures contract fell by 26 cents, or about 6 percent, from $4.58 last Wednesday to $4.32 yesterday. Working natural gas in storage rose to 2,354 this week, according to EIAÂ’s Weekly Natural Gas Storage Report (WNGSR). The natural gas rotary rig count, as reported by Baker Hughes

410

Natural gas vehicles : Status, barriers, and opportunities.  

SciTech Connect

In the United States, recent shale gas discoveries have generated renewed interest in using natural gas as a vehicular fuel, primarily in fleet applications, while outside the United States, natural gas vehicle use has expanded significantly in the past decade. In this report for the U.S. Department of Energy's Clean Cities Program - a public-private partnership that advances the energy, economic, and environmental security of the U.S. by supporting local decisions that reduce petroleum use in the transportation sector - we have examined the state of natural gas vehicle technology, current market status, energy and environmental benefits, implications regarding advancements in European natural gas vehicle technologies, research and development efforts, and current market barriers and opportunities for greater market penetration. The authors contend that commercial intracity trucks are a prime area for advancement of this fuel. Therefore, we examined an aggressive future market penetration of natural gas heavy-duty vehicles that could be seen as a long-term goal. Under this scenario using Energy Information Administration projections and GREET life-cycle modeling of U.S. on-road heavy-duty use, natural gas vehicles would reduce petroleum consumption by approximately 1.2 million barrels of oil per day, while another 400,000 barrels of oil per day reduction could be achieved with significant use of natural gas off-road vehicles. This scenario would reduce daily oil consumption in the United States by about 8%.

Rood Werpy, M.; Santini, D.; Burnham, A.; Mintz, M.; Energy Systems

2010-11-29T23:59:59.000Z

411

Shale Gas and Climate Targets: Can They Be Reconciled?  

E-Print Network (OSTI)

objectives. Second, because industry must incur the cost of CO2 separation as part of the production process this strategy creates for its GHG objectives. In recent years, natural gas exploration and development have is normally vented to the atmosphere as the gas is processed to market standards. While the expansion of B

412

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

What Consumers Should Know What Consumers Should Know An Assessment of Prices of Natural Gas Futures Contracts As A Predictor of Realized Spot Prices at the Henry Hub Overview of U.S. Legislation and Regulations Affecting Offshore Natural Gas and Oil Activity Changes in U.S. Natural Gas Transportation Infrastructure in 2004 Major Legislative and Regulatory Actions (1935 - 2004) U.S. Natural Gas Imports and Exports: Issues and Trends 2003 U.S. LNG Markets and Uses: June 2004 Natural Gas Restructuring Previous Issues of Natural Gas Weekly Update Natural Gas Homepage EIA's Natural Gas Division Survey Form Comments Overview: Thursday, December 1, 2005 (next release 2:00 p.m. on December 8) Colder-than-normal temperatures contributed to widespread price increases in natural gas spot markets since Wednesday, November 23 as heating demand increased. For the week (Wednesday to Wednesday), the spot price at the Henry Hub gained 59 cents per MMBtu, or about 5 percent, to trade at $11.73 per MMBtu yesterday (November 30). Similarly, at the NYMEX, the price for the futures contract for January delivery at the Henry Hub gained 54 cents since last Wednesday to close yesterday at $12.587 per MMBtu. Natural gas in storage as of Friday, November 25, decreased to 3,225 Bcf, which is 6.3 percent above the 5 year average. The spot price for West Texas Intermediate (WTI) crude oil dropped $1.02 per barrel, or about 2 percent, since last Wednesday to trade yesterday at $57.33 per barrel or $9.88 per MMBtu.

413

47 Natural Gas Market Trends NATURAL GAS MARKET TRENDS  

E-Print Network (OSTI)

47 Natural Gas Market Trends Chapter 5 NATURAL GAS MARKET TRENDS INTRODUCTION Natural gas discusses current natural gas market conditions in California and the rest of North America, followed on the outlook for demand, supply, and price of natural gas for the forecasted 20-year horizon. It also addresses

414

Sedimentology of gas-bearing Devonian shales of the Appalachian Basin  

SciTech Connect

The Eastern Gas Shales Project (1976-1981) of the US DOE has generated a large amount of information on Devonian shale, especially in the western and central parts of the Appalachian Basin (Morgantown Energy Technology Center, 1980). This report summarizes this information, emphasizing the sedimentology of the shales and how it is related to gas, oil, and uranium. This information is reported in a series of statements each followed by a brief summary of supporting evidence or discussion and, where interpretations differ from our own, we include them. We believe this format is the most efficient way to learn about the gas-bearing Devonian shales of the Appalachian Basin and have organized our statements as follows: paleogeography and basin analysis; lithology and internal stratigraphy; paleontology; mineralogy, petrology, and chemistry; and gas, oil, and uranium.

Potter, P.E.; Maynard, J.B.; Pryor, W.A.

1981-01-01T23:59:59.000Z

415

A Novel Approach For the Simulation of Multiple Flow Mechanisms and Porosities in Shale Gas Reservoirs  

E-Print Network (OSTI)

The state of the art of modeling fluid flow in shale gas reservoirs is dominated by dual porosity models that divide the reservoirs into matrix blocks that significantly contribute to fluid storage and fracture networks which principally control...

Yan, Bicheng

2013-07-15T23:59:59.000Z

416

Conversion of Waste CO2 and Shale Gas to High-Value Chemicals  

Energy.gov (U.S. Department of Energy (DOE))

The project aims to develop, build, operate, and validate a laboratory-scale continuous process that converts waste CO2 from industrial sources from shale gas into commodity chemical intermediates.

417

Water Intensity Assessment of Shale Gas Resources in the Wattenberg Field in Northeastern Colorado  

Science Journals Connector (OSTI)

Water Intensity Assessment of Shale Gas Resources in the Wattenberg Field in Northeastern Colorado ... Efficient use of water, particularly in the western U.S., is an increasingly important aspect of many activities including agriculture, urban, and industry. ...

Stephen Goodwin; Ken Carlson; Ken Knox; Caleb Douglas; Luke Rein

2014-04-21T23:59:59.000Z

418

The Framing of Marcellus Shale Gas Drilling Issues in Pennsylvania Newspapers.  

E-Print Network (OSTI)

??Thousands of articles on Marcellus Shale gas drilling and development were written in Pennsylvania newspapers from 2008-2012 (NewsBank, 2013). These stories can have an influence… (more)

Brown, Elise

2013-01-01T23:59:59.000Z

419

A comparative analysis of Shale Gas Extraction Policy : potential lessons for South Africa.  

E-Print Network (OSTI)

??ENGLISH ABSTRACT: Since its arrival onto the U.S. energy scene in the early 2000s, shale gas has had a significant impact on the global energy… (more)

Roberts, Judith Ashleigh

2013-01-01T23:59:59.000Z

420

Industry evolution : applications to the U.S. shale gas industry.  

E-Print Network (OSTI)

??The present study applies evolutionary and resource-based firm theories to three of the most prominent U.S. shale gas basins – the Barnett, Fayetteville, and Haynesville… (more)

Grote, Carl August

2014-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


421

The Implications and Flow Behavior of the Hydraulically Fractured Wells in Shale Gas Formation  

E-Print Network (OSTI)

approaches is by drilling horizontal wells and hydraulically fracturing the formation. Once the formation is fractured, different flow patterns will occur. The dominant flow regime observed in the shale gas formation is the linear flow or the transient...

Almarzooq, Anas Mohammadali S.

2012-02-14T23:59:59.000Z

422

Lower limits of evaluation parameters for the lower Paleozoic Longmaxi shale gas in southern Sichuan Province  

Science Journals Connector (OSTI)

Here we present six key parameters that have been applied to evaluate the Silurian Longmaxi shale gas accumulations of southern Sichuan Province. These parameters ... include richness of organic matter, single la...

YanJun Li; Huan Liu; LieHui Zhang; ZongGang Lu; QiRong Li…

2013-05-01T23:59:59.000Z

423

US-China_Fact_Sheet_Shale_Gas.pdf | Department of Energy  

Office of Environmental Management (EM)

ChinaFactSheetShaleGas.pdf More Documents & Publications US-ChinaFactSheetElectricVehicles.pdf FACT SHEET: U.S.-China Clean Energy Cooperation Announcements THE WHITE HOUSE...

424

Regulation of shale gas development : an argument for state preeminence with federal support  

E-Print Network (OSTI)

Shale gas development has become big business in the United States during the past decade, introducing drilling to parts of the country that have not seen it in decades and provoking an accelerating shift in the country's ...

Kansal, Tushar, M.C.P. Massachusetts Institute of Technology

2012-01-01T23:59:59.000Z

425

Application of the Stretched Exponential Production Decline Model to Forecast Production in Shale Gas Reservoirs  

E-Print Network (OSTI)

Production forecasting in shale (ultra-low permeability) gas reservoirs is of great interest due to the advent of multi-stage fracturing and horizontal drilling. The well renowned production forecasting model, Arps? Hyperbolic Decline Model...

Statton, James Cody

2012-07-16T23:59:59.000Z

426

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

5, 2009 5, 2009 Next Release: July 2, 2009 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, June 24, 2009) Natural gas spot prices generally declined this report week (June 17-24), with the largest decreases generally occurring in the western half of the country. During the report week, the Henry Hub spot price decreased by $0.19 per million Btu (MMBtu) to $3.80. At the New York Mercantile Exchange (NYMEX), futures prices for natural gas decreased as prices for most energy products fell amid concerns over the economy. The natural gas futures contract for July delivery decreased by 49 cents per MMBtu on the week to $3.761. Working gas in underground storage as of last Friday, June 19, is

427

Historical Natural Gas Annual  

Gasoline and Diesel Fuel Update (EIA)

6 6 The Historical Natural Gas Annual contains historical information on supply and disposition of natural gas at the national, regional, and State level as well as prices at selected points in the flow of gas from the wellhead to the burner-tip. Data include production, transmission within the United States, imports and exports of natural gas, underground storage activities, and deliveries to consumers. The publication presents historical data at the national level for 1930-1996 and detailed annual historical information by State for 1967-1996. The Historical Natural Gas Annual tables are available as self-extracting executable files in ASCII TXT or CDF file formats. Tables 1-3 present annual historical data at the national level for 1930-1996. The remaining tables contain detailed annual historical information, by State, for 1967-1996. Please read the file entitled READMEV2 for a description and documentation of information included in this file.

428

Historical Natural Gas Annual  

Gasoline and Diesel Fuel Update (EIA)

7 7 The Historical Natural Gas Annual contains historical information on supply and disposition of natural gas at the national, regional, and State level as well as prices at selected points in the flow of gas from the wellhead to the burner-tip. Data include production, transmission within the United States, imports and exports of natural gas, underground storage activities, and deliveries to consumers. The publication presents historical data at the national level for 1930-1997 and detailed annual historical information by State for 1967-1997. The Historical Natural Gas Annual tables are available as self-extracting executable files in ASCII TXT or CDF file formats. Tables 1-3 present annual historical data at the national level for 1930-1997. The remaining tables contain detailed annual historical information, by State, for 1967-1997. Please read the file entitled READMEV2 for a description and documentation of information included in this file.

429

Renewable Natural Gas  

NLE Websites -- All DOE Office Websites (Extended Search)

Natural Gas Natural Gas JOHN DAVIS: The use of clean, domestic natural gas as highway fuel in place of imported oil is growing in popularity with fleets and trucking companies. While natural gas from underground deposits is arguably a limited resource, there is a renewable, eco-friendly resource that we have right here in the U.S.A. And we're here now to give you the straight poop! Every family, farm animal and food processing plant in America produces organic waste that creates a mix of methane, CO2 and other elements called bio gas when it decomposes. Rotten vegetables, moldy bread, last night's leftovers --- they all break down when our garbage gets to the land fill. Incredibly, for

430

Historical Natural Gas Annual  

Gasoline and Diesel Fuel Update (EIA)

8 8 The Historical Natural Gas Annual contains historical information on supply and disposition of natural gas at the national, regional, and State level as well as prices at selected points in the flow of gas from the wellhead to the burner-tip. Data include production, transmission within the United States, imports and exports of natural gas, underground storage activities, and deliveries to consumers. The publication presents historical data at the national level for 1930-1998 and detailed annual historical information by State for 1967-1998. The Historical Natural Gas Annual tables are available as self-extracting executable files in ASCII TXT or CDF file formats. Tables 1-3 present annual historical data at the national level for 1930-1998. The remaining tables contain detailed annual historical information, by State, for 1967-1998. Please read the file entitled READMEV2 for a description and documentation of information included in this file.

431

WASTEWATER TREATMENT IN THE OIL SHALE INDUSTRY  

E-Print Network (OSTI)

during oil shale retorting: retort water and gas condensate.commercial oil shale plant, retort water and gas condensateunique to an oil shale retort water, gas condensate, and

Fox, J.P.

2010-01-01T23:59:59.000Z

432

Natural Gas Annual, 2000  

Gasoline and Diesel Fuel Update (EIA)

Natural Gas Annual, 2000 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2000. Summary data are presented for each Census Division and State for 1996 to 2000. A section of historical data at the National level shows industry activities back to the 1930's. Natural Gas Annual, 2000 provides information on the supply and disposition of natural gas in the United States. Production, transmission, storage, deliveries, and price data are published by State for 2000. Summary data are presented for each Census Division and State for 1996 to 2000. A section of historical data at the National level shows industry activities back to the 1930's. The data that appear in the tables of the Natural Gas Annual, 2000 are available as self-extracting executable files in ASCII TXT or CSV file formats. This volume emphasizes information for 2000, although some tables show a five-year history. Please read the file entitled README.V1 for a description and documentation of information included in this file. Also available are files containing the following data: Summary Statistics - Natural Gas in the United States, 1996-2000 (Table 1) ASCII TXT, and Natural Gas Supply and Disposition by State, 2000 (Table 2) ASCII TXT, are also available.

433

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

Impact of Interruptible Natural Gas Service A Snapshot of California Natural Gas Market: Status and Outlook EIA's Testimony on Natural Gas Supply and Demand Residential Natural Gas Price Brochure Status of Natural Gas Pipeline System Capacity Previous Issues of Natural Gas Weekly Update Natural Gas Homepage Overview: Monday, June 04, 2001 Stock builds slowed from their recent pace, even though spot prices continued their downward trend to end the week at the Henry Hub at $3.71 per MMBtu, which is a Friday-to-Friday decline of $0.14 per MMBtu. The NYMEX contract price for June delivery at the Henry Hub settled Tuesday at $3.738, the lowest close-out of a near month contract since the May 2000 contract. The July contract price was $3.930 per MMBtu on Friday, $0.103 lower than a week earlier. Mild weather in the Northeast and Midwest continued to suppress prices on the Eastern Seaboard, while a short burst of warm temperatures in southern California early in the week had the opposite effect on prices in that region. (See Temperature Map) (See Deviation from Normal Temperatures Map) Net injections to storage for the week ended Friday, May 25 were 99 Bcf, breaking a 4-week string of 100-plus net injections.

434

Interdisciplinary Investigation of CO2 Sequestration in Depleted Shale Gas Formations  

SciTech Connect

This project investigates the feasibility of geologic sequestration of CO2 in depleted shale gas reservoirs from an interdisciplinary viewpoint. It is anticipated that over the next two decades, tens of thousands of wells will be drilled in the 23 states in which organic-rich shale gas deposits are found. This research investigates the feasibility of using these formations for sequestration. If feasible, the number of sites where CO2 can be sequestered increases dramatically. The research embraces a broad array of length scales ranging from the ~10 nanometer scale of the pores in the shale formations to reservoir scale through a series of integrated laboratory and theoretical studies.

Zoback, Mark; Kovscek, Anthony; Wilcox, Jennifer

2013-09-30T23:59:59.000Z

435

A study of the effects of stimulation on Devonian Shale gas well performance  

E-Print Network (OSTI)

A STUDY OF THE EFFECTS OF STIMULATION ON DEVONIAN SHALE GAS WELL PERFORMANCE A Thesis by MICHAEL DEAN ZUBER Submitted to the Graduate College of Texas A&M University in partial fulfillment of the requirement for the degree of MASTER... OF SCIENCE December l985 Major Subject: Petroleum Engineerinq A STUDY OF THE EFFECTS OF STIMULATION ON DEVONIAN SHALE GAS WELL PERFORMANCE A Thesis by MICHAEL DEAN ZUBER Approved as to style and content by: John Lee (Chair of Committee) Stephen A...

Zuber, Michael Dean

2012-06-07T23:59:59.000Z

436

Simulating the Effect of Water on the Fracture System of Shale Gas Wells  

E-Print Network (OSTI)

SIMULATING THE EFFECT OF WATER ON THE FRACTURE SYSTEM OF SHALE GAS WELLS A Thesis by HASSAN HASAN H. HAMAM Submitted to the Office of Graduate Studies of Texas A&M University in partial fulfillment of the requirements... for the degree of MASTER OF SCIENCE August 2010 Major Subject: Petroleum Engineering SIMULATING THE EFFECT OF WATER ON THE FRACTURE SYSTEM OF SHALE GAS WELLS A Thesis by HASSAN HASAN H. HAMAM Submitted to the Office of Graduate...

Hamam, Hassan Hasan H.

2011-10-21T23:59:59.000Z

437

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

0, 2011 at 2:00 P.M. 0, 2011 at 2:00 P.M. Next Release: Thursday, March 17, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, March 9, 2011) Natural gas spot prices remained soft at nearly all domestic pricing points. The Henry Hub price rose an insignificant 2 cents per million Btu (MMBtu) (0.5 percent) for the week ending March 9, to $3.81 per MMBtu. Working natural gas in storage fell to 1,674 billion cubic feet (Bcf) as of Friday, March 4, according to the Energy Information AdministrationÂ’s (EIA) Weekly Natural Gas Storage Report (WNGSR). The implied draw for the week was 71 Bcf, with storage volumes positioned 32 Bcf above year-ago levels. At the New York Mercantile Exchange (NYMEX), the April 2011 natural

438

A3. Natural Gas  

Gasoline and Diesel Fuel Update (EIA)

Natural Natural Gas Processed and Liquids Extracted at Natural Gas Processing Plants by State, 1996 Table Plant Location Volume of Natural Gas Delivered to Processing Plants a (million cubic feet) Total Liquids Extracted b (thousand barrels) Extraction Loss (million cubic feet) State Production Out of State Production Natural Gas Processed Alabama..................................... 111,656 1,212 112,868 4,009 5,361 Alaska ........................................ 2,987,364 0 2,987,364 33,346 38,453 Arkansas.................................... 214,868 4,609 219,477 383 479 California.................................... 240,566 0 240,566 9,798 12,169 Colorado .................................... 493,748 215 493,963 16,735 23,362 Florida........................................ 5,900 2,614 8,514 1,630 1,649 Illinois.........................................

439

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

4, 2011 at 2:00 P.M. 4, 2011 at 2:00 P.M. Next Release: Thursday, March 3, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, February 23, 2011) Natural gas spot prices were soft again at nearly all domestic pricing points. The Henry Hub price fell 10 cents per million Btu (MMBtu) (2.5 percent) for the week ending February 23, to $3.83 per MMBtu. Working natural gas in storage fell to 1,830 billion cubic feet (Bcf) as of Friday, February 18, according to the Energy Information AdministrationÂ’s (EIA) Weekly Natural Gas Storage Report (WNGSR). The implied draw for the week was 81 Bcf, with storage volumes shifting to 48 Bcf below year-ago levels. At the New York Mercantile Exchange (NYMEX), the March 2011 natural

440

Theoretical fundamentals, critical issues, and adequate formulation of effective shale gas and condensate reservoir simulation  

Science Journals Connector (OSTI)

The issues of relevance to describing the storage and movement of hydrocarbon gas and condensate and water through extremely low permeability shale formations are reviewed. The shale rock is viewed as a heterogeneous quad-media continuum system. Each system has different wettability storage transport and connectivity characteristics. The hydrocarbon storage is considered as being in the free gas adsorbed gas and dissolved gas. The alteration of fluid properties and flow behavior under pore confinement are emphasized. For gas transport the effective mean-radii and apparent permeability as a function of pore-size distribution and gas adsorption are examined. The nonequilibrium fluid distribution effect produced by tortuous narrow flow paths is discussed. It is emphasized that these form the essential phenomena that must be taken into account for effective simulation of shale gas and condensate reservoirs.

Faruk Civan; Deepak Devegowda; Richard Sigal

2012-01-01T23:59:59.000Z

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


441

Oregon Natural Gas Summary  

Gasoline and Diesel Fuel Update (EIA)

5.27 5.33 4.00 4.92 1979-2010 5.27 5.33 4.00 4.92 1979-2010 Pipeline and Distribution Use 1967-2005 Citygate 8.14 8.82 7.79 6.78 5.84 5.21 1984-2012 Residential 14.65 13.89 14.52 12.49 11.76 11.22 1967-2012 Commercial 12.36 11.57 11.86 10.10 9.60 8.91 1967-2012 Industrial 9.30 9.07 9.70 7.05 6.84 5.87 1997-2012 Vehicle Fuel 6.59 8.03 7.11 5.61 4.23 4.57 1992-2012 Electric Power 6.10 7.08 4.25 4.57 W W 1997-2012 Production (Million Cubic Feet) Number of Producing Gas Wells 18 21 24 26 24 27 1989-2012 Gross Withdrawals 409 778 821 1,407 1,344 770 1979-2012 From Gas Wells 409 778 821 1,407 1,344 770 1979-2012 From Oil Wells 0 0 0 0 0 0 1996-2012 From Shale Gas Wells 0 0 0 0 0 0 2007-2012 From Coalbed Wells 0 0 0 0 0 0 2002-2012

442

Nevada Natural Gas Summary  

Gasoline and Diesel Fuel Update (EIA)

NA NA NA NA 2006-2010 NA NA NA NA 2006-2010 Pipeline and Distribution Use 1967-2005 Citygate 8.72 9.44 7.93 7.19 6.77 5.13 1984-2012 Residential 14.17 13.33 13.18 12.25 10.66 10.14 1967-2012 Commercial 12.03 11.21 10.92 9.77 8.07 7.43 1967-2012 Industrial 11.77 11.10 11.22 10.53 8.99 7.34 1997-2012 Vehicle Fuel 9.99 9.24 8.97 8.13 4.76 8.97 1991-2012 Electric Power 6.31 8.26 5.50 5.75 5.00 3.49 1997-2012 Production (Million Cubic Feet) Number of Producing Gas Wells 4 0 0 0 0 0 1996-2012 Gross Withdrawals 5 4 4 4 3 4 1991-2012 From Gas Wells 0 0 0 0 0 0 2006-2012 From Oil Wells 5 4 4 4 3 4 1991-2012 From Shale Gas Wells 0 0 0 0 0 0 2007-2012 From Coalbed Wells 0 0 0 0 0 0 2006-2012 Repressuring 0 0 0 0 0 0 2006-2012

443

Missouri Natural Gas Summary  

Gasoline and Diesel Fuel Update (EIA)

1967-1997 1967-1997 Pipeline and Distribution Use 1967-2005 Citygate 7.53 8.03 7.06 6.17 5.85 5.27 1984-2012 Residential 13.42 13.36 12.61 11.66 12.02 12.25 1967-2012 Commercial 11.82 12.02 10.81 10.28 9.99 9.54 1967-2012 Industrial 10.84 11.32 9.55 8.70 8.54 7.93 1997-2012 Vehicle Fuel 8.44 8.66 7.86 6.34 6.11 5.64 1994-2012 Electric Power W W W W W W 1997-2012 Production (Million Cubic Feet) Number of Producing Gas Wells 0 0 0 0 53 100 1989-2012 Gross Withdrawals 0 0 0 0 0 0 1967-2012 From Gas Wells 0 0 0 0 0 0 1967-2012 From Oil Wells 0 0 0 0 0 0 2007-2012 From Shale Gas Wells 0 0 0 0 0 0 2007-2012 From Coalbed Wells 0 0 0 0 0 0 2007-2012 Repressuring 0 0 0 0 0 0 2007-2012 Nonhydrocarbon Gases Removed

444

Nebraska Natural Gas Summary  

Gasoline and Diesel Fuel Update (EIA)

4.86 6.22 2.97 3.98 1967-2010 4.86 6.22 2.97 3.98 1967-2010 Pipeline and Distribution Use 1967-2005 Citygate 7.67 8.12 5.87 5.62 5.11 4.31 1984-2012 Residential 11.15 11.11 9.34 8.95 8.84 8.68 1967-2012 Commercial 9.16 9.62 7.44 7.08 6.69 6.19 1967-2012 Industrial 7.97 9.12 6.02 5.85 5.61 4.34 1997-2012 Vehicle Fuel 15.10 15.29 1994-2012 Electric Power 8.97 W W W 5.74 3.93 1997-2012 Production (Million Cubic Feet) Number of Producing Gas Wells 186 322 285 276 322 270 1989-2012 Gross Withdrawals 1,560 3,083 2,916 2,255 1,980 1,328 1967-2012 From Gas Wells 1,331 2,862 2,734 2,092 1,854 1,317 1967-2012 From Oil Wells 228 221 182 163 126 11 1967-2012 From Shale Gas Wells 0 0 0 0 0 0 2007-2012 From Coalbed Wells 0 0 0 0 0 0 2006-2012

445

Maryland Natural Gas Summary  

Gasoline and Diesel Fuel Update (EIA)

Wellhead Wellhead NA NA NA NA 1967-2010 Imports 7.25 9.09 4.05 5.37 5.30 13.82 1999-2012 Pipeline and Distribution Use 1967-2005 Citygate 9.24 10.23 8.02 6.49 6.26 5.67 1984-2012 Residential 15.17 16.07 13.73 12.44 12.10 12.17 1967-2012 Commercial 12.30 13.12 10.87 9.87 10.29 10.00 1967-2012 Industrial 11.59 13.46 10.70 9.05 8.61 8.01 1997-2012 Vehicle Fuel 11.40 14.66 11.20 5.99 5.09 -- 1993-2012 Electric Power 7.89 11.16 5.42 5.77 5.44 W 1997-2012 Production (Million Cubic Feet) Number of Producing Gas Wells 7 7 7 7 8 9 1989-2012 Gross Withdrawals 35 28 43 43 34 44 1967-2012 From Gas Wells 35 28 43 43 34 44 1967-2012 From Oil Wells 0 0 0 0 0 0 2006-2012 From Shale Gas Wells 0 0 0 0 0 0 2007-2012 From Coalbed Wells

446

EIA - Natural Gas Pipeline Network - Combined Natural Gas Transportation  

U.S. Energy Information Administration (EIA) Indexed Site

Combined Natural Gas Transportation Maps Combined Natural Gas Transportation Maps About U.S. Natural Gas Pipelines - Transporting Natural Gas based on data through 2007/2008 with selected updates U.S. Natural Gas Pipeline Network Map of U.S. Natural Gas Pipeline Network Major Natural Gas Supply Basins Relative to Natural Gas Pipeline Transportation Corridors Map of Major Natural Gas Supply Basins Relative to Natural Gas Pipeline Transportation Corridors see related text enlarge see related text enlarge U.S. Regional Breakdown Map of U.S. Regional Breakout States (in Grey) Highly Dependent on Interstate Pipelines for Natural Gas Supplies Map of States (in Grey) Highly Dependent on Interstate Pipelines for Natural Gas Supplies

447

Secretary of Energy Advisory Board Hosts Conference Call on Shale Gas Draft  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Hosts Conference Call on Shale Hosts Conference Call on Shale Gas Draft Report Secretary of Energy Advisory Board Hosts Conference Call on Shale Gas Draft Report November 10, 2011 - 4:30pm Addthis Washington, DC - On Monday, November 14, 2011, the Secretary of Energy Advisory Board (SEAB) will convene a public meeting via conference call to discuss the SEAB Subcommittee on Shale Gas Production draft report . The meeting will allow SEAB members to provide advice and recommendations as well receive public comments on the report. Media wishing to attend should contact Niketa Kumar at niketa.kumar@hq.doe.gov by 5pm on Friday, November 11. WHAT: Secretary of Energy Advisory Board Meeting WHEN: Monday, November 14, 2011 2:00pm News Media Contact: (202) 586-4940 Addthis Related Articles Secretary Chu to Host Secretary of Energy Advisory Board Meeting

448

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

1, 2011 at 2:00 P.M. 1, 2011 at 2:00 P.M. Next Release: Thursday, August 18, 2011 Overview Prices Storage Other Market Trends Overview (For the Week Ending Wednesday, August 10, 2011) Natural gas prices fell across the board this week, likely in response to cooling temperatures as well as weak economic news. The Henry Hub spot price fell 17 cents from $4.26 per million Btu (MMBtu) last Wednesday, August 3, to $4.09 per MMBtu yesterday, August 10. At the New York Mercantile Exchange, the price of the near-month contract (September 2011) fell by $0.087 per MMBtu, from $4.090 last Wednesday to $4.003 yesterday. Working natural gas in storage was 2,783 Bcf as of Friday, August 5, according to EIAÂ’s Weekly Natural Gas Storage Report (WNGSR). The natural gas rotary rig count, as reported by Baker Hughes

449

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

7, 2011 at 2:00 P.M. 7, 2011 at 2:00 P.M. Next Release: Thursday, February 3, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, January 26, 2011) Natural gas spot prices were soft at all domestic pricing points. The Henry Hub price fell 8 cents per million Btu (MMBtu) (about 1.7 percent) for the week ending January 26, to $4.40 per MMBtu. The West Texas Intermediate crude oil spot price settled at $86.15 per barrel ($14.85 per MMBtu), on Wednesday, January 26. This represents a decrease of $4.70 per barrel, or $0.81 per MMBtu, from the previous Wednesday. Working natural gas in storage fell to 2,542 billion cubic feet (Bcf) as of Friday, January 21, according to the Energy Information AdministrationÂ’s (EIA) Weekly Natural Gas Storage Report (WNGSR). The

450

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

9, 2011 at 2:00 P.M. 9, 2011 at 2:00 P.M. Next Release: Thursday, June 16, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, June 8, 2011) Natural gas prices rose on the week across the board, with somewhat moderate increases in most areas and steep increases in the Northeast United States. The Henry Hub spot price rose 20 cents on the week from $4.63 per million Btu (MMBtu) last Wednesday, June 1, to $4.83 per MMBtu yesterday. At the New York Mercantile Exchange, the price of the near-month (July 2011) contract rose about 5 percent, from $4.692 last Wednesday to $4.847 yesterday. Working natural gas in storage rose to 2,187 billion cubic feet (Bcf) as of Friday, June 3, according to EIAÂ’s Weekly Natural Gas Storage

451

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

5, 2009 at 2:00 P.M. 5, 2009 at 2:00 P.M. Next Release: Friday, November 13, 2009 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, November 4, 2009) Natural gas spot prices fell over the week at most market locations, declining on average 16 cents per million Btu (MMBtu). Decreases ranged between 2 cents and 77 cents per MMBtu. In the few trading locations where prices rose, increases were modest, ranging between 1 and 4 cents per MMBtu. The Henry Hub natural gas spot price fell 10 cents on the week, closing at $4.49 per MMBtu. At the New York Mercantile Exchange (NYMEX), the December 2009 natural gas contract fell 34 cents per MMBtu, or 7 percent. The November contract expired on Wednesday, October 28, at $4.289 per MMBtu.

452

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

0, 2009 at 2:00 P.M. 0, 2009 at 2:00 P.M. Next Release: September 17, 2009 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, September 9, 2009) Natural gas prices posted significant increases at all market locations since last Wednesday, September 2. The Henry Hub spot price increased 47 cents from the previous Wednesday's price of $2.25 per MMBtu. However, intraweek trading was volatile, with natural gas prices falling below $2 per million Btu (MMBtu) at the Henry Hub on Friday, September 4 and rising to $2.72 per MMBtu yesterday. At the New York Mercantile Exchange (NYMEX), the price of the near-month natural gas contract for delivery in October 2009 rose by 11.4 cents to $2.829 per MMBtu, an increase of about 4 percent from the previous

453

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

1, 2011 at 2:00 P.M. 1, 2011 at 2:00 P.M. Next Release: Thursday, July 28, 2011 Overview Prices Storage Other Market Trends Overview (For the Week Ending Wednesday, July 20, 2011) Responding to extremely hot weather this week, natural gas prices moved up at market locations across the lower 48 States. The spot price at the Henry Hub increased 21 cents from $4.43 per million Btu (MMBtu) last Wednesday, July 13, to $4.64 per MMBtu yesterday, July 20. At the New York Mercantile Exchange, the price of the near-month futures contract (August 2011) increased from $4.403 per MMBtu to $4.500 per MMBtu. Working natural gas in storage rose to 2,671 billion cubic feet (Bcf) as of Friday, July 15, according to EIAÂ’s Weekly Natural Gas Storage Report (WNGSR). The natural gas rotary rig count, as reported by Baker Hughes

454

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

3, 2010 at 2:00 P.M. 3, 2010 at 2:00 P.M. Next Release: Thursday, June 10, 2010 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, June 2, 2010) Since Wednesday, May 26, natural gas spot prices increased across the lower 48 States, with gains of up to $0.18 per million Btu (MMBtu), at most market locations. The Henry Hub natural gas spot price rose $0.13 per MMBtu, or about 3 percent, averaging $4.32 per MMBtu in trading yesterday, June 2. At the New York Mercantile Exchange (NYMEX), the futures contract for July delivery at the Henry Hub settled yesterday at $4.42 per MMBtu, climbing by $0.25 or about 6 percent since the previous Wednesday. Natural gas in storage was 2,357 billion cubic feet (Bcf) as of May

455

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

8, 2011 at 2:00 P.M. 8, 2011 at 2:00 P.M. Next Release: Thursday, May 5, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, April 27, 2011) Mild temperatures coupled with continued strong domestic production resulted in natural gas cash market prices dropping modestly at nearly all domestic pricing points over the week. The lone exception was the Henry Hub price which rose a token 2 cents per million Btu (MMBtu) (0.5 percent) to $4.35 per MMBtu on April 27. Working natural gas in storage rose to 1,685 billion cubic feet (Bcf) as of Friday, April 22, according to the U.S. Energy Information AdministrationÂ’s (EIA) Weekly Natural Gas Storage Report (WNGSR). The implied increase for the week was 31 Bcf, with storage volumes positioned

456

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

, 2008 , 2008 Next Release: October 9, 2008 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (Wednesday, September 24 to Wednesday, October 1) Natural gas spot prices fell at most market locations in the Lower 48 States this report week, as seasonably moderate temperatures minimized natural gas demand in many areas of the country. The return of some Gulf of Mexico supplies during the week provided further downward pressure on spot prices. As of yesterday, October 1, the Minerals Management Service (MMS) reported that 3.5 billion cubic feet (Bcf) per day of natural gas production remains shut-in, 16 percent lower than the 4.2 Bcf per day reported 1 week earlier. The Henry Hub spot price fell in the first three trading sessions of

457

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

1 at 2:00 P.M. 1 at 2:00 P.M. Next Release: Thursday, November 17, 2011 Overview Prices Storage Other Market Trends Overview (For the Week Ending Wednesday, November 9, 2011) Continuing its recent trend of languishing below the $4 per million Btu (MMBtu) mark, the Henry Hub natural gas spot price oscillated this week, and posted an overall net increase of 16 cents, from $3.39 per MMBtu last Wednesday, November 2, to $3.55 per MMBtu yesterday, November 9. At the New York Mercantile Exchange, the price of the near-month (December 2011) natural gas futures contract fell from $3.749 per MMBtu last Wednesday to $3.652 per MMBtu yesterday. Working natural gas in storage rose to 3,831 billion cubic feet (Bcf) as of Friday, November 4, according to EIAÂ’s Weekly Natural Gas

458

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

0, 2011 at 2:00 P.M. 0, 2011 at 2:00 P.M. Next Release: Thursday, January 27, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, January 19, 2011) Natural gas prices fell at most market locations across the country, as bitterly cold weather subsided. At the Henry Hub, the natural gas price fell 7 cents from $4.55 per million Btu (MMBtu) on Wednesday, January 12, to $4.48 per MMBtu on Wednesday, January 19. At the New York Mercantile Exchange (NYMEX), the price of the near-month natural gas contract (February 2011) rose slightly, from $4.531 per MMBtu on January 12 to $4.561 yesterday. The spot price of the West Texas Intermediate crude oil fell by $1 over the week, from $91.85 per barrel on January 12 ($15.84 per MMBtu) to

459

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

2, 2010 at 2:00 P.M. 2, 2010 at 2:00 P.M. Next Release: Thursday, September 9, 2010 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, September 1, 2010) Since Wednesday, August 25, natural gas spot prices fell at most market locations in the lower 48 States, although prices generally rose in the Northeast and Rocky Mountain areas. The Henry Hub spot price fell on the week from $3.99 per million Btu (MMBtu) to $3.73 per MMBtu, its lowest value since April 1, 2010. At the New York Mercantile Exchange, the October 2010 natural gas futures contract fell about 3 percent from $3.896 per MMBtu to $3.762 per MMBtu. During the report week, the September 2010 natural gas futures contract expired at $3.651, having lost about $1.176 per MMBtu during its

460

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

3, 2011 at 2:00 P.M. 3, 2011 at 2:00 P.M. Next Release: Thursday, March 10, 2011 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, March 2, 2011) Natural gas prices showed continued relative weakness during the report week. The spot price at the Henry Hub fell from $3.83 per million Btu (MMBtu) on February 23 to $3.79 per MMBtu on March 2. At the New York Mercantile Exchange (NYMEX), the March 2011 futures contract expired at $3.793 per MMBtu, having declined about 12 percent during its tenure as the near-month contract. Working natural gas in storage fell to 1,745 Bcf as of Friday, February 25, according to EIAÂ’s Weekly Natural Gas Storage Report. The spot price of the West Texas Intermediate (WTI) crude oil

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


461

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

8, 2010 at 2:00 P.M. 8, 2010 at 2:00 P.M. Next Release: Thursday, April 15, 2010 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, April 7, 2010) Since Wednesday, March 31, natural gas spot prices climbed at most market locations across the lower 48 States, with increases of as much as 8 percent. The Henry Hub natural gas spot price rose $0.15, or about 4 percent, to $4.08 per million Btu (MMBtu), in a week of trading shortened by the Good Friday holiday on April 2. At the New York Mercantile Exchange (NYMEX), the futures contract for May delivery at the Henry Hub settled yesterday, April 7, at $4.02 per MMBtu, rising by $0.15 or about 4 percent since the previous Wednesday. Natural gas in storage was 1,669 billion cubic feet (Bcf) as of

462

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

2, 2011 at 2:00 P.M. 2, 2011 at 2:00 P.M. Next Release: Thursday, September 29, 2011 Overview Prices Storage Other Market Trends Overview (For the Week Ending Wednesday, September 21, 2011) Natural gas spot prices declined at most market locations across the United States, as moderate temperatures led to declines in demand. Prices at the Henry Hub fell from $4.01 per MMBtu last Wednesday, September 14, to $3.78 per MMBtu yesterday. At the New York Mercantile Exchange, the price of the near-month futures contract (October 2011) dropped from $4.039 per MMBtu last Wednesday to $3.73 per MMBtu yesterday. Working natural gas in storage rose to 3,201 billion cubic feet (Bcf) as of Friday, September 16, according to EIAÂ’s Weekly Natural Gas Storage Report (WNGSR). The natural gas rotary rig count, as reported by Baker Hughes

463

,"Kentucky Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050KY3","N3010KY3","N3020KY3","N3035KY3","N3045KY3" "Date","Natural Gas Citygate Price in Kentucky (Dollars per Thousand Cubic Feet)","Kentucky Price...

464

,"Colorado Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050CO3","N3010CO3","N3020CO3","N3035CO3","N3045CO3" "Date","Natural Gas Citygate Price in Colorado (Dollars per Thousand Cubic Feet)","Colorado Price...

465

,"Illinois Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050IL3","N3010IL3","N3020IL3","N3035IL3","N3045IL3" "Date","Natural Gas Citygate Price in Illinois (Dollars per Thousand Cubic Feet)","Illinois Price...

466

,"California Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050CA3","N3010CA3","N3020CA3","N3035CA3","N3045CA3" "Date","Natural Gas Citygate Price in California (Dollars per Thousand Cubic Feet)","California...

467

,"Maryland Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050MD3","N3010MD3","N3020MD3","N3035MD3","N3045MD3" "Date","Natural Gas Citygate Price in Maryland (Dollars per Thousand Cubic Feet)","Maryland Price...

468

,"Arkansas Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050AR3","N3010AR3","N3020AR3","N3035AR3","N3045AR3" "Date","Natural Gas Citygate Price in Arkansas (Dollars per Thousand Cubic Feet)","Arkansas Price...

469

,"Virginia Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050VA3","N3010VA3","N3020VA3","N3035VA3","N3045VA3" "Date","Natural Gas Citygate Price in Virginia (Dollars per Thousand Cubic Feet)","Virginia Price...

470

,"Oklahoma Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050OK3","N3010OK3","N3020OK3","N3035OK3","N3045OK3" "Date","Natural Gas Citygate Price in Oklahoma (Dollars per Thousand Cubic Feet)","Oklahoma Price...

471

,"Nebraska Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050NE3","N3010NE3","N3020NE3","N3035NE3","N3045NE3" "Date","Natural Gas Citygate Price in Nebraska (Dollars per Thousand Cubic Feet)","Nebraska Price...

472

,"Washington Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050WA3","N3010WA3","N3020WA3","N3035WA3","N3045WA3" "Date","Natural Gas Citygate Price in Washington (Dollars per Thousand Cubic Feet)","Washington...

473

,"Tennessee Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050TN3","N3010TN3","N3020TN3","N3035TN3","N3045TN3" "Date","Natural Gas Citygate Price in Tennessee (Dollars per Thousand Cubic Feet)","Tennessee...

474

,"Louisiana Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050LA3","N3010LA3","N3020LA3","N3035LA3","N3045LA3" "Date","Natural Gas Citygate Price in Louisiana (Dollars per Thousand Cubic Feet)","Louisiana...

475

,"Minnesota Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050MN3","N3010MN3","N3020MN3","N3035MN3","N3045MN3" "Date","Natural Gas Citygate Price in Minnesota (Dollars per Thousand Cubic Feet)","Minnesota...

476

,"Michigan Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050MI3","N3010MI3","N3020MI3","N3035MI3","N3045MI3" "Date","Natural Gas Citygate Price in Michigan (Dollars per Thousand Cubic Feet)","Michigan Price...

477

,"Pennsylvania Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

1: Prices" "Sourcekey","N3050PA3","N3010PA3","N3020PA3","N3035PA3","N3045PA3" "Date","Natural Gas Citygate Price in Pennsylvania (Dollars per Thousand Cubic...

478

Natural Gas Monthly Update  

Annual Energy Outlook 2012 (EIA)

issues Go CorrectionUpdate February 22, 2013 Two Year-To-Date values, for 2010 NGL Composite Spot Price and Natural Gas Spot Price, were incorrectly displayed in Table 3. These...

479

Natural Gas Hydrate Dissociation  

Science Journals Connector (OSTI)

Materials for hydrate synthesis mainly include methane gas of purity 99.9% (produced by Nanjing Special Gases Factory Co., Ltd.), natural sea sand of grain sizes 0.063?0.09,...

Qingguo Meng; Changling Liu; Qiang Chen; Yuguang Ye

2013-01-01T23:59:59.000Z

480

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

for natural gas in the electric power sector soared during the week in order to meet heating needs from the current cold spell. The operator for the electric power grid in Texas...

Note: This page contains sample records for the topic "natural gas shale" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


481

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

in waters up to 9000 feet deep. Southern Natural Gas Company has scheduled a shut-in test at the Muldon Storage Field in Mississippi for April 5 through April 11. Under the...

482

Natural Gas for Britain  

Science Journals Connector (OSTI)

... AT a time when the Government is exhorting the gas and other major industries concerned with ... and other major industries concerned with natural fuel resources to give a forward boost to coal mining by contracting an annual intake ...

1965-05-29T23:59:59.000Z

483

Extracting the economic benefits of natural resources in the Marcellus Shale Region  

E-Print Network (OSTI)

My thesis seeks to explore the challenge of value capture from natural resources using the case of the Marcellus Shale in West Virginia and Pennsylvania as an exemplar. I examine the mechanisms in place to capture the ...

Hess, Sara Lynn

2014-01-01T23:59:59.000Z

484

Oil and Gas CDT Are non-marine organic-rich shales suitable exploration  

E-Print Network (OSTI)

Oil and Gas CDT Are non-marine organic-rich shales suitable exploration targets? The University will receive 20 weeks residential training of broad relevance to the oil and gas industry: 10 weeks in Year 1 and also experienced oil and gas industry professionals. The supervisors at Oxford and Exeter have

Henderson, Gideon

485

,"Arizona Natural Gas Summary"  

U.S. Energy Information Administration (EIA) Indexed Site

3","N3050AZ3","N3010AZ3","N3020AZ3","N3035AZ3","NA1570SAZ3","N3045AZ3" "Date","Arizona Natural Gas Wellhead Price (Dollars per Thousand Cubic Feet)","Price of Arizona Natural...

486

Historical Natural Gas Annual 1999  

U.S. Energy Information Administration (EIA) Indexed Site

1999 The Historical Natural Gas Annual contains historical information on supply and disposition of natural gas at the national, regional, and State level as well as prices at...

487

Life Cycle Carbon Footprint of Shale Gas: Review of Evidence and Implications  

Science Journals Connector (OSTI)

Life Cycle Carbon Footprint of Shale Gas: Review of Evidence and Implications ... Most of the studies utilize US EPA’s Greenhouse Gas Emissions Reporting Background Technical Support Document (TSD) for their assumptions regarding the amount of gas released per completion and the flaring rate for completions, the two critical parameters that describe the amount of greenhouse gases released per completion. ... These ?13C-CH4 data, coupled with the ratios of methane-to-higher-chain hydrocarbons, and ?2H-CH4 values, are consistent with deeper thermogenic methane sources such as the Marcellus and Utica shales at the active sites and matched gas geochem. ...

Christopher L. Weber; Christopher Clavin

2012-04-30T23:59:59.000Z

488

Impact of Shale Gas Development on Regional Water Quality  

Science Journals Connector (OSTI)

...hydraulically fractured shale aquifers . Ground Water 50 , 826...Areas Underlain by the Glacial Aquifer System, Northern United States...Hydraulic fracturing, or "fracking," a technology being used...reviews what is known about fracking and makes suggestions for improving...

R. D. Vidic; S. L. Brantley; J. M. Vandenbossche; D. Yoxtheimer; J. D. Abad

2013-05-17T23:59:59.000Z

489

Shale gas development impacts on surface water quality in Pennsylvania  

Science Journals Connector (OSTI)

...fractured shale aquifers . Ground Water 50 ( 6 ): 826 – 828...2011) Investigation of Ground Water Contamination near Pavillion...poses a threat to surface waters. Front Ecol Environ...Acid mine drainage remediation options: A review...

Sheila M. Olmstead; Lucija A. Muehlenbachs; Jhih-Shyang Shih; Ziyan Chu; Alan J. Krupnick

2013-01-01T23:59:59.000Z

490

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

6, 2009 6, 2009 Next Release: July 23, 2009 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, July 15, 2009) Natural gas spot prices rose during the week in all trading locations. Price increases ranged between 6 cents and 48 cents per million Btu (MMBtu), with the biggest increases occurring in the Rocky Mountain region. During the report week, the spot price at the Henry Hub increased 15 cents or 5 percent to $3.37 per MMBtu. At the New York Mercantile Exchange (NYMEX), the natural gas near-month contract (August 2009) decreased 7 cents to $3.283 per MMBtu from $3.353 the previous week. During its tenure as the near-month contract, the August 2009 contract has lost 66 cents. As of Friday, July 10, 2009, working gas in storage rose to 2,886

491

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

5, 2010 at 2:00 P.M. 5, 2010 at 2:00 P.M. Next Release: Thursday, March 4, 2010 Overview Prices Storage Other Market Trends Natural Gas Transportation Update Overview (For the Week Ending Wednesday, February 24, 2010) Natural gas prices declined across the board, continuing a downward trend from the previous week. The Henry Hub natural gas spot price closed at $4.91 per million Btu (MMBtu) on Wednesday, February 24, a decline of about 10 percent from $5.47 per MMBtu on February 17. At the New York Mercantile Exchange (NYMEX), the futures contract for March 2010 delivery, which expired yesterday, fell 11 percent on the week, from $5.386 per MMBtu to $4.816 per MMBtu. With an implied net withdrawal of 172 billion cubic feet (Bcf), working gas in storage decreased to 1,853 Bcf as of Friday, February 19,

492

Interagency Collaboration to Address Environmental Impacts of Shale Gas Drilling  

Energy.gov (U.S. Department of Energy (DOE))

A memorandum of understanding to perform collaborative research related to airborne emissions and air quality at natural gas drilling sites has been signed by the Office of Fossil Energy’s National Energy Technology Laboratory and the National Institute for Occupational Safety and Health.

493

Indiana Natural Gas Summary  

Gasoline and Diesel Fuel Update (EIA)

78 7.58 4.05 4.13 1967-2010 78 7.58 4.05 4.13 1967-2010 Pipeline and Distribution Use 1967-2005 Citygate 7.83 8.94 5.59 5.52 4.97 4.23 1984-2012 Residential 11.29 12.65 10.81 8.63 9.46 8.94 1967-2012 Commercial 10.20 11.14 9.18 7.55 8.04 7.68 1967-2012 Industrial 8.45 10.48 6.91 5.65 6.53 6.19 1997-2012 Vehicle Fuel 6.09 7.94 4.08 5.19 13.24 12.29 1990-2012 Electric Power 7.48 9.61 4.69 4.91 W W 1997-2012 Production (Million Cubic Feet) Number of Producing Gas Wells 2,350 525 563 620 914 819 1989-2012 Gross Withdrawals 3,606 4,701 4,927 6,802 9,075 8,814 1967-2012 From Gas Wells 3,606 4,701 4,927 6,802 9,075 8,814 1967-2012 From Oil Wells 0 0 0 0 0 0 1967-2012 From Shale Gas Wells 0 0 0 0 0 0 2007-2012 From Coalbed Wells

494

Natural Gas - CNG & LNG  

NLE Websites -- All DOE Office Websites (Extended Search)

Natural Gas Natural Gas Natural gas pump Natural gas, a fossil fuel comprised mostly of methane, is one of the cleanest burning alternative fuels. It can be used in the form of compressed natural gas (CNG) or liquefied natural gas (LNG) to fuel cars and trucks. Dedicated natural gas vehicles are designed to run on natural gas only, while dual-fuel or bi-fuel vehicles can also run on gasoline or diesel. Dual-fuel vehicles allow users to take advantage of the wide-spread availability of gasoline or diesel but use a cleaner, more economical alternative when natural gas is available. Since natural gas is stored in high-pressure fuel tanks, dual-fuel vehicles require two separate fueling systems, which take up passenger/cargo space. Natural gas vehicles are not available on a large scale in the U.S.-only

495

EIA - AEO2010 -Importance of low-permeability natural gas reservoirs  

Gasoline and Diesel Fuel Update (EIA)

Importance of low-permeability natural gas reservoirs Importance of low-permeability natural gas reservoirs Annual Energy Outlook 2010 with Projections to 2035 Importance of low-permeability natural gas reservoirs Introduction Production from low-permeability reservoirs, including shale gas and tight gas, has become a major source of domestic natural gas supply. In 2008, low-permeability reservoirs accounted for about 40 percent of natural gas production and about 35 percent of natural gas consumption in the United States. Permeability is a measure of the rate at which liquids and gases can move through rock. Low-permeability natural gas reservoirs encompass the shale, sandstone, and carbonate formations whose natural permeability is roughly 0.1 millidarcies or below. (Permeability is measured in “darcies.”)

496

Natural Gas Weekly Update  

Gasoline and Diesel Fuel Update (EIA)

14, 2007 (next release 2:00 p.m. on June 21, 2007) 14, 2007 (next release 2:00 p.m. on June 21, 2007) Natural gas spot and futures prices decreased this week (Wednesday-Wednesday, June 6-13) as weather-related demand was limited amid close-to-normal temperatures for this time of year. Easing prices also likely resulted in part from reduced supply uncertainty in response to the amount of natural gas in underground storage (mostly for use during the winter heating season but also available for periods of hot weather in the summer). Supplies from international sources have grown considerably this spring, as imports of liquefied natural gas (LNG) have increased markedly even as natural gas supplies from Canada (transported by pipeline) likely have decreased. On the week, the Henry Hub spot price decreased 23 cents per MMBtu, or 2.9 percent, to $7.60. At the New York Mercantile Exchange (NYMEX), the contract for July delivery decreased 47.2 cents per MMBtu on the week to a daily settlement of $7.608 yesterday (June 13). EIA's Weekly Natural Gas Storage Report today reported natural gas storage supplies of 2,255 Bcf as of Friday, June 8, reflecting an implied net injection of 92 Bcf. This level of working gas in underground storage is 19.3 percent above the 5-year average inventory for this time of year. The spot price for West Texas Intermediate (WTI) crude oil increased $0.20 per barrel on the week to $66.17 per barrel, or $11.41 per MMBtu.

497

INTEGRATION OF HIGH TEMPERATURE GAS REACTORS WITH IN SITU OIL SHALE RETORTING  

SciTech Connect

This paper evaluates the integration of a high-temperature gas-cooled reactor (HTGR) to an in situ oil shale retort operation producing 7950 m3/D (50,000 bbl/day). The large amount of heat required to pyrolyze the oil shale and produce oil would typically be provided by combustion of fossil fuels, but can also be delivered by an HTGR. Two cases were considered: a base case which includes no nuclear integration, and an HTGR-integrated case.

Eric P. Robertson; Michael G. McKellar; Lee O. Nelson

2011-05-01T23:59:59.000Z

498

DOE's Program Regulating Liquefied Natural Gas Export Applications |  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

DOE's Program Regulating Liquefied Natural Gas Export DOE's Program Regulating Liquefied Natural Gas Export Applications DOE's Program Regulating Liquefied Natural Gas Export Applications June 18, 2013 - 10:15am Addthis Statement of Christopher Smith, Acting Assistant Secretary for Fossil Energy before the House Committee on Energy and Commerce Subcommittees on Energy and Power. Thank you Chairman Whitfield, Ranking Member Rush, and members of the Subcommittee; I appreciate the opportunity to be here today to discuss the Department of Energy's (DOE) program regulating the export of natural gas, including liquefied natural gas (LNG). Recent Developments in LNG Exports The boom in domestic shale gas provides unprecedented opportunities for the United States. Over the last several years, domestic natural gas production

499

Natural Gas - U.S. Energy Information Administration (EIA)  

U.S. Energy Information Administration (EIA) Indexed Site

EIA's latest Short-Term Energy Outlook for natural gas › image chart of U.S. Natural Gas Production and Imports projections as described in linked Short-Term Energy Outlook Source: U.S. Energy Information Administration, Short-Term Energy Outlook, released monthly. Natural gas price volatility and uncertainty › Natural gas historical and implied volatility Source: U.S. Energy Information Administration, Short-Term Energy Outlook, Market Prices and Uncertainty Report. Cost of Natural Gas Used in Manufacturing Sector Has Fallen Graph showing Cost of Natural Gas Used in Manufacturing Sector Has Fallen Source: U.S. Energy Information Administration, Manufacturing Energy Consumption Survey (MECS) 1998-2010, September 6, 2013. North America leads the world in production of shale gas ›

500

Microbial communities in flowback water impoundments from hydraulic fracturing for recovery of shale gas  

SciTech Connect

Hydraulic fracturing for natural gas extraction from shale produces waste brine known as flowback that is impounded at the surface prior to reuse and/or disposal. During impoundment, microbial activity can alter the fate of metals including radionuclides, give rise to odorous compounds, and result in biocorrosion that complicates water and waste management and increases production costs. Here, we describe the microbial ecology at multiple depths of three flowback impoundments from the Marcellus shale that were managed differently. 16S rRNA gene clone libraries revealed that bacterial communities in the untreated and biocide-amended impoundments were depth dependent, diverse, and most similar to species within the taxa [gamma]-proteobacteria, [alpha]-proteobacteria, ?-proteobacteria, Clostridia, Synergistetes, Thermotogae, Spirochetes, and Bacteroidetes. The bacterial community in the pretreated and aerated impoundment was uniform with depth, less diverse, and most similar to known iodide-oxidizing bacteria in the [alpha]-proteobacteria. Archaea were identified only in the untreated and biocide-amended impoundments and were affiliated to the Methanomicrobia class. This is the first study of microbial communities in flowback water impoundments from hydraulic fracturing. The findings expand our knowledge of microbial diversity of an emergent and unexplored environment and may guide the management of flowback impoundments.

Mohan, Arvind Murali; Hartsock, Angela; Hammack, Richard W.; Vidic, Radisav D; Gregory, Kelvin B.

2013-12-01T23:59:59.000Z