GIS maps of Alabama resource data; includes maps of geology, natural hazards, and water.
The USGS has conducted numerous assessments of undiscovered oil and gas in the Appalachian Basin, including studies of the Marcellus Shale. The region extends from Alabama to Maine. The downloads are part of an overview of the assessments.
Licensing rounds awarded by the Petroleum Affairs Division (PAD) in the Irish Atlantic Margin. The 2015 licensing round includes three regions. The Irish Atlantic Margin geographic coverage includes foreshore and offshore waters in what is known as the Currently Designated Irish Continental Shelf. Licensing awarded in 2015. PAD awarded licences to oil and gas exploration companies via licensing options upon application. The role in the Petroleum Affairs Division is to maximise the benefits to the State from exploration for and production (E%amp;P) of indigenous oil and gas resources. In doing this PAD ensure that activities are conducted with due regard to their impact on the environment and other land/sea users through appropriate licensing.
Colorado state oil, gas, water and environmental data system
No Alaska natural gas can physically cross the border into Canada without a handful of government agencies - in the United States and Canada - blessing the event. But getting government permission for the gas itself to leave Alaska and enter Canada on its way to Lower 48 markets will be a relative snap compared to the years-long ordeal to sanction construction of the proposed multibillion-dollar natural gas pipeline from Alaska's North Slope. It's like the difference between issuing a hall pass to the school nurse's office vs. actually building the school.
Determination of Optimum Air (Gas) Injection Rate in Aerated Drilling Operations, Annual Report; May 1, 1979-April 30, 1980
Interactive map depicting oil drilling, gas drilling, coal mining, power plants, refineries, and other data. Includes metadata.
ERMA Gulf Response, powered by Environmental Response Management Application (ERMA), is a web-based Geographic Information System (GIS) tool designed to assist both emergency responders and environmental resource managers who deal with incidents that may adversely impact the environment. This application is currently assisting with response operations for the Deepwater Horizon spill and data regarding this incident is displayed here and updated daily. ERMA is also assisting in resource management decisions in support of Natural Resource Damage Assessment.
EDX is the Department of Energy (DOE)/Fossil Energy Carbon Management (FECM) virtual library and data laboratory built to find, connect, curate, use and re-use data to advance fossil energy and environmental R&D. Developed and maintained by the National Energy Technology Laboratory (NETL), EDX supports the entire life cycle of data by offering secure, private collaborative workspaces for ongoing research projects until they mature and become catalogued, curated, and published. EDX adheres to DOE Cyber policies as well as domestic and international standards for data curation and citation. This ensures data products pushed public via EDX are afforded a citation for proper accreditation and complies with journal publication requirements.
Experimental Determination of Solids Friction Factors and Minimum Volumetric Requirements in Air or Gas Drilling, Topical Report; August 1981
Welcome to FracFocus, the hydraulic fracturing chemical registry website. This website is a joint project of the Ground Water Protection Council and the Interstate Oil and Gas Compact Commission. On this site you can search for information about the chemicals used in the hydraulic fracturing of oil and gas wells. You will also find educational materials designed to help you put this information in perspective.
Further Development of a Fracture Model for Lenticular Gas Sands, Final Report; April 1985
Gas Consumption List of properties we own or manage and the consumption rate of gas used for each. The dataset contains 4 worksheets based on different service providers.
The proposed multibillion-dollar natural gas pipeline into Canada would be buried for almost its entire 803-mile length within Alaska with only a few exceptions, including where it bridges earthquake faults.
The overall purpose of the geochemical monitoring program under Midwestern Regional Carbon Sequestration Partnership (MRCSP) is to use stable and radiogenic isotope geochemistry in concert with analysis of general geochemical parameters of fluids and gases and analysis of core samples to determine geochemical processes occurring in the reef structure because of CO2 injection..
This submission offers a link to a web mapping application hosted instance of the Global Oil & Gas Features Database (GOGI), via EDX’s Geocube tool. This offers users with the ability to visualize, interact, and create maps with data of their choice, as well as download specific attributes or fields of view from the database. This data can also be downloaded as a File Geodatabse from EDX at https://edx.netl.doe.gov/dataset/global-oil-gas-features-database. Access the technical report describing how this database was produced using the following link: https://edx.netl.doe.gov/dataset/development-of-an-open-global-oil-and-gas-infrastructure-inventory-and-geodatabase” This data was developed using a combination of big data computing, custom search and data integration algorithms, and expert driven search to collect open oil and gas data resources worldwide. This approach identified over 380 data sets and integrated more than 4.8 million features into the GOGI database. Acknowledgements: This work was funded under the Climate and Clean Air Coalition (CCAC) Oil and Gas Methane Science Studies. The studies are managed by United Nations Environment in collaboration with the Office of the Chief Scientist, Steven Hamburg of the Environmental Defense Fund. Funding was provided by the Environmental Defense Fund, OGCI Companies (Shell, BP, ENI, Petrobras, Repsol, Total, Equinor, CNPC, Saudi Aramco, Exxon, Oxy, Chevron, Pemex) and CCAC.
Hydraulic Fracturing and Associated Stress Modeling for the Eastern Gas Shale Project - Final Report; November 1980
The application of carbon dioxide or other gases to extract crude oil from depleted reservoirs has been shown to be a technically successful process. However, optimized recoveries are often compromised by poor sweep efficiencies because of low gas viscosities and densities. A new process was investigated that potentially could improve sweep efficiencies by enhancing extractability properties of the injected gas with entrainers. Use of a capillary viscometer to evaluate enhanced viscosities appeared to be the best procedure for evaluating candidate compounds. A mathematical treatment was proposed based on predicting entrainer solubilities and minimum miscibility pressure alterations for carbon dioxide. However, use of many assumptions and approximations limited the effectiveness of this approach to qualitative evaluations. Some 87 compounds were evaluated using this mathematical treatment, and certain monoaromatic compounds were identified for further laboratory testing. 33 refs., 8 figs., 3 tabs.
Monthly oil and gas production data by well are now available on the web through the Kentucky Geological Survey oil and gas well search pages. When you search for wells, look for the Production Data link. If there is no link, no production data have been associated with the selected well. The data are reformatted from the monthly oil and gas production data available as text files by county and year from the Kentucky Division of Oil and Gas.
The University of Kentucky and the Kentucky Geological Survey have worked together to collect the oil and gas well locations in Kentucky into GIS-readable shapefile downloads.
A map displaying the Lower 48 Major Tight Plays.
Bucknell University database with reports, books, articles, conference abstracts, fact-sheets, and industry journal articles relating to the Marcellus Shale.
Battelle’s MRCSP Phase III monitoring efforts began on February 3, 2013, with an overarching goal of monitoring at least 1 million metric tons (MT) of net CO2 stored within Core Energy’s EOR complex. For the purposes of this report, most of the mass balance accounting data is shown through September 30, 2019, a period of 6 years, 10 months..
What would happen to Alaska's natural gas once it reaches the end of the proposed pipeline, 1,700 miles from Prudhoe Bay? The gas would flow into a vast network of Canadian and U.S. pipelines assembled over the past 60 years. Some key components of that network were built or expanded in the early 1980s in anticipation of Alaska gas starting to flow back then. Those components went into service without Alaska gas and helped Canada double its natural gas exports to the United States in the 1980s, then double them again in the 1990s. In all, the entire network today can move 15 billion to 20 billion cubic feet a day of natural gas, roughly three to four times the volume the Alaska pipeline would deliver to the British Columbia-Alberta border northwest of Edmonton. Of course, the network still moves billions of cubic feet of gas daily. But the volume it handles has been declining, leaving room for Alaska gas, and even if the flow is relatively flush when the Alaska pipeline is finished, the network's capacity could be expanded. No longer is there serious talk of needing a pipeline stretching all the way from Prudhoe Bay to Chicago. But why end the Alaska pipeline near the B.C.-Alberta border as opposed to somewhere else? The answer is simple: Three major North American gas pipeline systems converge there, in the heart of some of Canada's hottest natural gas plays.
Here you can find out the approximate location of our national gas transmission network. You can also check if our transmission networks may be affected by your works by using the Linesearch website. These datasets are for indicative purposes only. They can only be used for emergency and land use planning and cannot be used for commercial purposes. They are owned by National Gas Transmission plc and you are required to acknowledge us in your product or application using "© National Gas Transmission". This data is supplied on a best-effort basis only, using available information as documented at the time by the transmission network operators. While every effort is made to make sure the information is accurate and up-to-date, we do not accept any liability for any direct, indirect, or consequential loss or damage of any nature--however caused--which may be sustained as a result of reliance upon such information. The datasets contain gas transmission data only. For gas distribution data, please contact the distribution company for your area. You can find your local distribution company by going to the Energy Networks website. If you are planning to undertake any ground works, please visit www.lsbud.co.uk and raise an enquiry with at least 14 days in advance. If you are having difficulties using this service, please contact our Asset Protection Team on 0800 970 7000 or at box.assetprotection@nationalgas.com All datasets are accompanied with Gemini 2.2 metadata.
o The soil gas shapefile contains GPS-collected soil gas sampling locations that were part of PCOR Partnership near-surface monitoring, verification, and accounting (MVA) activities in the Bell Creek oil field. Sample locations were categorized based on the nearest oil well's status at the beginning of MVA activities. Identifiers were project-specific. Soil gas sample locations present in this shapefile indicate samples were collected at least once but does not indicate samples were collected during every project sampling event.
During late spring 2011, two small airplanes flew dozens of sorties over key transportation corridors bisecting Alaska. Seated in the back of each plane was a technician, surely with an iron-lined stomach and extraordinary sense of equilibrium, enduring the pitching, rolling and yawing while the pilot maintained a nearly constant altitude above terrain that is anything but constant. Like bombardiers dropping payloads on air-raid targets, the technicians released millions of laser pulses from the planes' bellies, pelting the ground and capturing the pulses' echoes. The entire mission involved a relatively new technology called lidar. It was part of a multiagency effort to understand, map and put into the public realm the precise landscape a North Slope natural gas pipeline would cross. The data gathered trillions of bytes of data is now getting posted on a state of Alaska website.And state geologists and geophysicists who commissioned the lidar research their first foray into the technology are now getting an extraordinary look at the Earth's surface in a swath of Alaska never before detailed in such sharp relief.
OSTI.GOV is the primary search tool for DOE science, technology, and engineering research and development results and the organizational hub for information about the DOE Office of Scientific and Technical Information. OSTI.GOV makes discoverable over 70 years of research results from DOE and its predecessor agencies. Research results include journal articles/accepted manuscripts and related metadata; technical reports; scientific research datasets and collections; scientific software; patents; conference and workshop papers; books and theses; and multimedia.
The location and areas where offshore non-renewable energy is taking place and due to begin production around Ireland. The main commercial fields include the Corrib field off the Belmullet Peninsula and the Kinsale field in the Celtic Sea.
The location of offshore non-renewable gas energy extraction platforms within Irish waters.
From the site: "Coal Pillar Locations are pillars of coal that must remain in place to provide support for an oil and gas well on the surface."
From the site: "Cell maps for each oil and gas assessment unit were created by the USGS as a method for illustrating the degree of exploration, type of production, and distribution of production in an assessment unit or province. Each cell represents a quarter-mile square of the land surface, and the cells are coded to represent whether the wells included within the cell are predominantly oil-producing, gas-producing, both oil and gas-producing, dry, or the type of production of the wells located within the cell is unknown. The well information was initially retrieved from the IHS Energy Group, PI/Dwights PLUS Well Data on CD-ROM, which is a proprietary, commercial database containing information for most oil and gas wells in the U.S. Cells were developed as a graphic solution to overcome the problem of displaying proprietary PI/Dwights PLUS Well Data. No proprietary data are displayed or included in the cell maps. The data from PI/Dwights PLUS Well Data were current as of October 2001 when the cell maps were created in 2002."
From the site: "The Assessment Unit is the fundamental unit used in the National Assessment Project for the assessment of undiscovered oil and gas resources. The Assessment Unit is defined within the context of the higher-level Total Petroleum System. The Assessment Unit is shown here as a geographic boundary interpreted, defined, and mapped by the geologist responsible for the province and incorporates a set of known or postulated oil and (or) gas accumulations sharing similar geologic, geographic, and temporal properties within the Total Petroleum System, such as source rock, timing, migration pathways, trapping mechanism, and hydrocarbon type. The Assessment Unit boundary is defined geologically as the limits of the geologic elements that define the Assessment Unit, such as limits of reservoir rock, geologic structures, source rock, and seal lithologies. The only exceptions to this are Assessment Units that border the Federal-State water boundary. In these cases, the Federal-State water boundary forms part of the Assessment Unit boundary."
From the site: "An Oil and Gas Location is a DEP primary facility type related to the Oil & Gas Program. The sub-facility types related to Oil and Gas that are included in this layer are:_____ Land Application -- An area where drilling cuttings or waste are disposed by land application Well-- A well associated with oil and/or gas production Pit -- An approved pit that is used for storage of oil and gas well fluids . Some sub facility types are not included in this layer due to security policies."
From the site: "The Assessment Unit is the fundamental unit used in the National Assessment Project for the assessment of undiscovered oil and gas resources. The Assessment Unit is defined within the context of the higher-level Total Petroleum System. The Assessment Unit is shown here as a geographic boundary interpreted, defined, and mapped by the geologist responsible for the province and incorporates a set of known or postulated oil and (or) gas accumulations sharing similar geologic, geographic, and temporal properties within the Total Petroleum System, such as source rock, timing, migration pathways, trapping mechanism, and hydrocarbon type. The Assessment Unit boundary is defined geologically as the limits of the geologic elements that define the Assessment Unit, such as limits of reservoir rock, geologic structures, source rock, and seal lithologies. The only exceptions to this are Assessment Units that border the Federal-State water boundary. In these cases, the Federal-State water boundary forms part of the Assessment Unit boundary."
From the site: "The Total Petroleum System is used in the National Assessment Project and incorporates the Assessment Unit, which is the fundamental geologic unit used for the assessment of undiscovered oil and gas resources. The Total Petroleum System is shown here as a geographic boundary defined and mapped by the geologist responsible for the province and incorporates not only the set of known or postulated oil and (or) gas accumulations, but also the geologic interpretation of the essential elements and processes within the petroleum system that relate to source, generation, migration, accumulation, and trapping of the discovered and undiscovered petroleum resource(s)."
This month, a small team of federal officials will visit a handful of Alaska villages to discuss with local tribal leaders the proposed multibillion-dollar gas pipeline project one government to another. The meetings or consultations, as they're called stem from an 18-year-old presidential mandate for federal agencies to engage Native American tribes, and to listen and consider their concerns before taking actions that affect the tribes. That mandate grew out of a new federal approach to Native relations that repudiated two centuries of policies that marginalized Native Americans, their culture and their relations with the land
A multimillion-dollar effort is moving ahead to understand how the proposed Alaska gas pipeline project would change the physical, economic, social and cultural environments along the line's path through the state. The Federal Energy Regulatory Commissionis leading the environmental review of the $32 billion to $41 billion project that would pipe 4.5 billion cubic feet a day of North Slope natural gas through Canada to the Lower 48.
PBCC is a free tool which estimates the per-person carbon footprint for every Lower Super Output Area (LSOA) in England. LSOAs are small statistical areas with a population of about 1,500 - 3,000. It draws on a wide range of data and research to give a representative view of how carbon footprints vary across the country. Last Updated: 08/09/2022
From the site: "Radium activity data for waters co-produced with oil and gas in New York and Pennsylvania have been compiled from publicly available sources and are presented together with new data for six wells, including one time series. When available, total dissolved solids (TDS), and gross alpha and gross beta particle activities also were compiled. Data from the 1990s and earlier are from sandstone and limestone oil/gas reservoirs of Cambrian-Mississippian age; however, the recent data are almost exclusively from the Middle Devonian Marcellus Shale. The Marcellus Shale represents a vast resource of natural gas the size and significance of which have only recently been recognized. Exploitation of the Marcellus involves hydraulic fracturing of the shale to release tightly held gas. Analyses of the water produced with the gas commonly show elevated levels of salinity and radium."
Shallow Seismic Investigations of Devonian Shale Gas Production; June 1982
Well Information includes information on borehole activities such as drilling activity, counts on the number of boreholes completed, and number of shut-in's.Additional information includes the lease number, well name, spud date, the well class, surface area/block number, and statistics on well status summary.Additional files are available on well completions and well tests. All surveys are referenced to grid north in the native map projection of the block containing the surface location of the survey.For some old surveys the north reference was not marked and was assumed by BOEM to be grid north. In an effort to improve the quality of our downloadable data, we are now exporting bottom hole locations as calculated from the directional survey associated with the well. The coordinate values were derived using the North American Datum (NAD) 1927.
The geographic dataarebuilt fromtheTechnical Information Management System (TIMS). TIMS consists of two separate databases: an attribute database and a spatial database.The attribute information for offshore activities is stored in theTIMSdatabase. The spatial database is a combination of the ARC/INFO and FINDER databases and contains all the coordinates and topology information for geographic features.The attribute and spatial databases are interconnected through the use of common data elements in both databases,thereby creating the spatial datasets. The data in the mapping filesaremade up of straight-line segments.If an arc existed in the original data, it has been replaced with a series of straight lines that approximate the arc.The Gulf of Mexico OCS Region stores all its mapping data in longitude and latitude format.All coordinates are in NAD 27. Data can be obtained in threetypes of digitalformats: ASCII: American Standard Code for Information Interchange is plain text format where a string of 7 binary digits represents each character. E00: An ArcInfo interchange file format used for system independent exchange of geographic information system (GIS) coverages and associated data. DXF: Drawing Exchange File is a two-dimensional graphics file format supported by PC-based CAD products. DXF data includes no topology.
The non-gas map is a detailed map of Great Britain showing the distribution of properties without a gas grid connection across local authorities, LSOAs (lower-level super output areas) and, for registered users, postcodes. For each region, the map displays: Distances from gas grid; Central heating energy source; Energy efficiency measures; Property type; Tenure; Number of rooms; Energy performance rating (EPC)
Recent USDA/ARS patented technologies on bioenergy and the environment that are available for licensing are described, including summary, contact, benefits, and applications. Updated June 2018.
From the site: "A cells polygon feature class was created by the U.S. Geological Survey (USGS) to illustrate the degree of exploration, type of production, and distribution of production in the United States. Each cell represents a quarter-mile square of the land surface, and the cells are coded to represent whether the wells included within the cell are predominantly oil-producing, gas-producing, both oil and gas-producing, or the type of production of the wells located within the cell is unknown or dry. The well information was initially retrieved from IHS Inc.'s PI/Dwights PLUS Well Data on CD-ROM, which is a proprietary, commercial database containing information for most oil and gas wells in the U.S. Cells were developed as a graphic solution to overcome the problem of displaying proprietary well data. No proprietary data are displayed or included in the cell maps. The data are current through 10/1/2005."
"This report contains maps and associated spatial data showing historical oil and gas exploration and production in the United States. Because of the proprietary nature of many oil and gas well databases, the United States was divided into cells one-quarter square mile and the production status of all wells in a given cell was aggregated. Base-map reference data are included, using the U.S. Geological Survey (USGS) National Map, the USGS and American Geological Institute (AGI) Global GIS, and a World Shaded Relief map service from the ESRI Geography Network. A hardcopy map was created to synthesize recorded exploration data from 1859, when the first oil well was drilled in the U.S., to 2005. In addition to the hardcopy map product, the data have been refined and made more accessible through the use of Geographic Information System (GIS) tools. The cell data are included in a GIS database constructed for spatial analysis via the USGS Internet Map Service or by importing the data into GIS software such as ArcGIS. The USGS internet map service provides a number of useful and sophisticated geoprocessing and cartographic functions via an internet browser. Also included is a video clip of U.S. oil and gas exploration and production through time."
From the site: "A cells polygon feature class was created by the U.S. Geological Survey (USGS) to illustrate the degree of exploration, type of production, and distribution of production in the State of Ohio. Each cell represents a quarter-mile square of the land surface, and the cells are coded to represent whether the wells included within the cell are predominantly oil-producing, gas-producing, both oil and gas-producing, or the type of production of the wells located within the cell is unknown or dry. The well information was acquired from the Ohio Department of Natural Resources, Division of Geological Survey in a Geographic Information System (GIS) data layer that contains all of the locatable oil and gas wells in Ohio. Cells were developed as a graphic solution to overcome the problem of displaying proprietary well data. No proprietary data are displayed or included in the cell maps. The data are current as of 2004."
During hydrocarbon production, water is typically co-produced from the geologic formations producing oil and gas. Understanding the composition of these produced waters is important to help investigate the regional hydrogeology, the source of the water, the efficacy of water treatment and disposal plans, potential economic benefits of mineral commodities in the fluids, and the safety of potential sources of drinking or agricultural water. The U.S. Geological Survey National Produced Waters Geochemical Database v2.3 is an updated compilation of geochemical and related information for water from oil and gas wells in the United States. It includes identification and location information, well descriptions, dates, rock properties, physical properties of the water, inorganic chemistry, organic chemistry, and isotopes.
Western Gas Sands Project-Stratigraphy of the Piceance Basin