A Field Experiment of Steam Drive with In-Situ Foaming, Annual Report, October 1982-September 1983
A Field Experiment of Steam Drive with In-Situ Foaming, Status Report, October 1980-September 1982
From the site: "AAPG Datapages and the AAPG GIS Publications Committee wish to thank Dr. M. K. (Mike) Horn for allowing his Giant Oil and Gas Fields of the World GIS project to be posted on Datapages' GIS Open Files page, thereby making it available to the public as a free download. This compilation shows key information about most of the largest known hydrocarbon accumulations in the world. Specific data include discovery year, hydrocarbon volumes, trap type, geologic age, reservoir lithology, and classification into global basin and geologic province domains. Also included is an extensive reference listing. This dataset complements several AAPG memoirs and series publications that address giant oil and gas fields. Please note: This project is available in three formats: Shapefile, Geodatabase, and ArcReader."
This report outlines marine field demonstrations for manipulation tasks with a semi-Autonomous Underwater Vehicle (sAUV). The vehicle is built off a Seabotix vLBV300 platform with custom software interfacing it with the Robot Operating System (ROS). The vehicle utilizes an inertial navigation system available from Greensea Systems, Inc. based on a Gladiator Landmark 40 IMU coupled with a Teledyne Explorer Doppler Velocity Log to perform station keeping at a desired location and orientation. We performed two marine trials with the vehicle: a near-shore shared autonomy manipulation trial and an offshore attempted intervention trial. These demonstrations were designed to show the capabilities of our sAUV system for inspection and basic manipulation tasks in real marine environments.
The TidGen Power System generates emission-free electricity from tidal currents and connects directly into existing grids using smart grid technology. The power system consists of three major subsystems: shore-side power electronics, mooring system, and turbine generator unit (TGU) device. This submission includes field Test Plans for subsystem and system tests.
Adequacy Analysis of Air Quality Monitoring Activities Relevant to California Thermal Enhanced Oil Recovery Fields - Final Report; November 1979
An Evaluation of the Bell Creek Field Micellar-Polymer Pilot, Report, October 1982
An evaluation of the CO2 pilot Maljamar Field Lea County, New Mexico DOE/BC/10830-12
Links to URL's with latest time-series of GPS stations BRAD, BRDY and BRD1 Files with links to URL's (i.e., ftp location) of GPS RINEX files archived since last report.
Links to URL's with latest time-series of GPS stations BRAD, BRDY, and BRD1. Text files containing links to URL's (i.e., ftp location) of GPS RINEX files archived since last report (1/18/2017).
Links to URL's with latest time-series of GPS stations BRAD, BRDY and BRD1
CSV files with links to RINEX data for stations BRAD and BRDY for all days after those reported previous (i.e., since 21-JAN-2015) Links to websites that show the position time-series of both stations.
Links to URL's with latest time-series of GPS stations BRAD, BRDY and BRD1. Files with links to the URL's (i.e. ftp location) of the GPS RINEX files archived since last report.
Daily position time-series of GPS station BRAD. Format is indicated on first line of file.
GPS RINEX Files and Time-Series FTP Locations
Daily position time-series of GPS station BRDY. Format is indicated on first line of file.
Bell Creek Field micellar-polymer pilot demonstration. Fourth annual report, October 1979-September 1980 DOE/SF/01802-56
Contains metadata associated with the wells used in the 2016 Spring Campaign led partially by UW - Madison, LBNL, and LLNL scientists. Included with the well coordinates are the depths to the pressure sensors used in observation and pumping wells. Read me files are included for each .csv file.
CSV files with links to individual GPS RINEX files.
Daily position time-series for GPS station BRAD and BRDY in the NA12 reference frame.
Contracts for Field Projects and Supporting Research on Enhanced Oil Recovery - Progress Review 73, Quarter Ending December 1992
Contracts for Field Projects and Supporting Research on Enhanced Oil Recovery - Progress Review 76, Quarter Ending September 1993
Petrographic and Analytical Results
Electrodril System Field Test Program Phase I, Final Report, May-December 1976
Evaluation of Deep Wellbore Integrity in the Zama Field
Field Demonstration of the Conventional Steam Drive Process with Ancillary Materials, First Annual Report, October 1979-September 1980
DOE/SF/10761-3
Field measurement results for well 36-15C in the project area.
This report details the probable chemical interactions that will occur between the injected acid gas and the host mineralogy. As well, results of physical and chemical modelling of the gas flow are presented. Descriptions of the data required for this analysis and the tools required to evaluate and process this data are given. The modelling consists of four steps. Initially the mineralogical composition of the reservoir is determined. Secondly, analyses of fluids recovered from the reservoir, or other similar local geological structures were obtained and culled based on geochemical considerations. These results integrated to simulate the gas uptake and solution changes associated with fluid/mineral reactions. These results offer insights into the trapping reactions of the acid gas components with time, which were used to define input parameters for the commercial reservoir simulator, GEM® (Computer Modelling Group, Calgary). GEM was used to estimate the spread and compositional changes to the gas composition in the reservoir as the acid gas plume spreads following injection.
Increased Oil Production and Reserves from Improved Completion Techniques in the Bluebell Field; Annual Report, 1995
LARGE SCALE FOAM FRACTURING IN THE DEVONIAN SHALE - A FIELD DEMONSTRATION IN WEST VIRGINIA
The overarching project objective is to demonstrate the feasibility of using an innovative PowerTake-Off (PTO) Module in Columbia Power's utility-scale wave energy converter (WEC). The PTO Module uniquely combines a large-diameter, direct-drive, rotary permanent magnet generator; a patent-pending rail-bearing system; and a corrosion-resistant fiber-reinforced-plastic structure
Software developed in LabVIEW for the Modular Ocean Instrumentation System (MOIS) is provided. Two documents: MOIS User's Guide and MOIS Software Developer's Guide are included in the submission.
DE-FG22-89BC14246
NETL REE Technical Reports Link to Rare Earth Elements from Coal and Coal Byproducts site ![Foo](http://edx.netl.doe.gov/ree/wp-content/uploads/2014/12/Ask-us-a-Question.png)
PILOT STUDY OF GAS PRODUCTION ANALYSIS METHODS APPLIED TO COTTAGEVILLE FIELD
Files with links to RINEX files for station BRDY not previously reported
Files with links to RINEX files for station BRAD not previously reported
Links to GPS RINEX data not previously reported, plus links to station web pages, which include most up-to-date time-series
Brady's Field PoroTomo project. GPS station deployment and data analysis. Links to data files and website with station and time-series information
This submission includes fact and logical data models for geothermal data concerning wells, fields, power plants and related analyses at Raft River, ID. The fact model is available in VizioModeler (native), html, UML, ORM-Specific, pdf, and as an XML Spy Project. An entity-relationship diagram is also included. Models are derived from tables, figures and other content in the following reports from the Raft River Geothermal Project: "Technical Report on the Raft River Geothermal Resource, Cassia County, Idaho," GeothermEx, Inc., August 2002. "Results from the Short-Term Well Testing Program at the Raft River Geothermal Field, Cassia County, Idaho," GeothermEx, Inc., October 2004.
The site characterization data used to develop the conceptual geologic model for the Snake River Plain site in Idaho, as part of phase 1 of the Frontier Observatory for Research in Geothermal Energy (FORGE) initiative. This collection includes data on seismic events, groundwater, geomechanical models, gravity surveys, magnetics, resistivity, magnetotellurics (MT), rock physics, stress, the geologic setting, and supporting documentation, including several papers. Also included are 3D models (Petrel and Jewelsuite) of the proposed site. Data for wells INEL-1, WO-2, and USGS-142 have been included as links to separate data collections. These data have been assembled by the Snake River Geothermal Consortium (SRGC), a team of collaborators that includes members from national laboratories, universities, industry, and federal agencies, lead by the Idaho National Laboratory (INL). Other contributors include the National Renewable Energy Laboratory (NREL), Lawrence Livermore National Laboratory (LLNL), the Center for Advanced Energy Studies (CEAS), the University of Idaho, Idaho State University, Boise State University, University of Wyoming, University of Oklahoma, Energy and Geoscience Institute-University of Utah, US Geothermal, Baker Hughes Campbell Scientific Inc., Chena Power, US Geological Survey (USGS), Idaho Department of Water Resources, Idaho Geological Survey, and Mink GeoHydro.
This submission contains information on thirty-six rock samples collected from San Emidio, Nevada during January, 2021 for Subtask 2.3 of the WHOLESCALE project. The following resources include a .zip of rock sample photos taken in the field, a .zip of rock sample photos taken in the laboratory at UW-Madison, and an excel catalog of rock samples with information on sample name, rock type, coordinates of sample location, structural measurements, field notes, observations for plug preparation (e.g., weathering, ability to be cut and cored), and rock descriptions. It should be noted that not every sample was photographed in the field. Names and descriptions of rock formation units are taken from Rhodes et al. (2011). The README.txt file is a description of this submission.
The objective of this field test is to validate several technologies for non-invasive well integrity assessment using existing wells with a known completion. The tests were made at the Cymric oil field, which is a steam flood operation. The wells therefore undergo similar downhole conditions as geothermal wells. The Cymric field is mainly a cyclic steam operation where wells are 1000-15-00 ft in depth and the reservoir occupies the bottom 400ft. The maximum temperatures can exceed 500 degrees F and the well spacing is very close, often less than 50m. The field plan consisted of applying the Time Domain Reflectometry (TDR) method to the wells. The input voltages were set as 70 V shows the TDR responses at frequencies of 450 kHz, 2500 kHz, and 4500 kHz. There is a summary report will full information about the field tests.