Utah FORGE Project 2439: Well 16B(78)-32 Field-Test Data from Mini-Frac Tests
This submittal includes the field-test data collected during stress tests conducted in the Utah FORGE 16B(78)-32 wellbore to measure/characterize the stresses in the geothermal reservoir. The type of stress test performed is referred to as a mini-frac test or a micro-frac test. The test is a hydraulic fracture test that involves injecting a small volume of water into a short interval of the reservoir that is isolated by a straddle packer to create a fracture. The test provides information about the minimum and maximum horizontal stress at the test depths. A total of seven mini-frac tests were performed within the upper (vertical or nearly vertical) section of the 9-5/8-inch diameter uncased wellbore, between depths of 5,202 ft MD [5,202 ft TVD] and 5,980 ft MD [5966.18 ft TVD]. Two types of data were generated as part of the mini-frac tests. The first type of data is time-series data for each mini-frac test (e.g., injection-rate, test-interval pressure), and are contained in the "Mini-Frac Test Data.zip" file below. The second type is geophysical log data, attached below in the "Geophysical Logs.zip" file. Here, two types of image logs and acoustic logs were obtained before and after the mini-frac tests to examine each test depth for visual evidence of induced fracture(s) and to measure the azimuth (orientation) of any observed fractures. The attached Readme file includes the test depth information and contents of each data file included here. Analysis of the field-test data is being conducted and will be documented in a separate report when completed.
Citation Formats
Battelle Memorial Institute. (2023). Utah FORGE Project 2439: Well 16B(78)-32 Field-Test Data from Mini-Frac Tests [data set]. Retrieved from https://dx.doi.org/10.15121/2278823.
Kelley, Mark, Skopec, Stuart, Mawalkar, Sanjay, Raziperchikolaee, Samin, and Barrios, Jorge. Utah FORGE Project 2439: Well 16B(78)-32 Field-Test Data from Mini-Frac Tests. United States: N.p., 02 Jul, 2023. Web. doi: 10.15121/2278823.
Kelley, Mark, Skopec, Stuart, Mawalkar, Sanjay, Raziperchikolaee, Samin, & Barrios, Jorge. Utah FORGE Project 2439: Well 16B(78)-32 Field-Test Data from Mini-Frac Tests. United States. https://dx.doi.org/10.15121/2278823
Kelley, Mark, Skopec, Stuart, Mawalkar, Sanjay, Raziperchikolaee, Samin, and Barrios, Jorge. 2023. "Utah FORGE Project 2439: Well 16B(78)-32 Field-Test Data from Mini-Frac Tests". United States. https://dx.doi.org/10.15121/2278823. https://gdr.openei.org/submissions/1570.
@div{oedi_6044, title = {Utah FORGE Project 2439: Well 16B(78)-32 Field-Test Data from Mini-Frac Tests}, author = {Kelley, Mark, Skopec, Stuart, Mawalkar, Sanjay, Raziperchikolaee, Samin, and Barrios, Jorge.}, abstractNote = {This submittal includes the field-test data collected during stress tests conducted in the Utah FORGE 16B(78)-32 wellbore to measure/characterize the stresses in the geothermal reservoir. The type of stress test performed is referred to as a mini-frac test or a micro-frac test. The test is a hydraulic fracture test that involves injecting a small volume of water into a short interval of the reservoir that is isolated by a straddle packer to create a fracture. The test provides information about the minimum and maximum horizontal stress at the test depths. A total of seven mini-frac tests were performed within the upper (vertical or nearly vertical) section of the 9-5/8-inch diameter uncased wellbore, between depths of 5,202 ft MD [5,202 ft TVD] and 5,980 ft MD [5966.18 ft TVD]. Two types of data were generated as part of the mini-frac tests. The first type of data is time-series data for each mini-frac test (e.g., injection-rate, test-interval pressure), and are contained in the "Mini-Frac Test Data.zip" file below. The second type is geophysical log data, attached below in the "Geophysical Logs.zip" file. Here, two types of image logs and acoustic logs were obtained before and after the mini-frac tests to examine each test depth for visual evidence of induced fracture(s) and to measure the azimuth (orientation) of any observed fractures. The attached Readme file includes the test depth information and contents of each data file included here. Analysis of the field-test data is being conducted and will be documented in a separate report when completed.}, doi = {10.15121/2278823}, url = {https://gdr.openei.org/submissions/1570}, journal = {}, number = , volume = , place = {United States}, year = {2023}, month = {07}}
https://dx.doi.org/10.15121/2278823
Details
Data from Jul 2, 2023
Last updated Feb 6, 2024
Submitted Jan 3, 2024
Organization
Battelle Memorial Institute
Contact
Sanjay Mawalkar
614.424.7593
Authors
Original Source
https://gdr.openei.org/submissions/1570Research Areas
Keywords
geothermal, energy, geomechanics, Utah, FORGE, minifrac, stress, in-situ stress, EGS, mini-frac, stress test, geophysical log, image log, acoustic log, sonic log, fracturing, hydraulic fracturing, reservoir stress, injection, caliper logs, temperature logs, XMAC, 16B78-32, Baker Hughes, packer element pressure, flowback, packer elementDOE Project Details
Project Name Utah FORGE
Project Lead Lauren Boyd
Project Number EE0007080