Utah FORGE: Chemical-Based Tool Deployment Data for Inflow Detection at Wells 58-32 and 16B(78)-32 - Summer 2024 Circulation Test
This dataset comprises field logging data collected during chemical-based tool deployments at the Utah FORGE geothermal site, specifically at monitoring well 58-32 and production well 16B(78)-32. Data acquisition occurred during the Summer 2024 circulation testing campaign, with tool runs in well 58-32 conducted between June 12-14, 2024, and in well 16B(78)-32 on August 19, 2024. The chemical sensing system utilized chloride ion-selective electrodes (ISEs) and associated high-temperature electronics integrated into a wireline assembly, enabling real-time measurement of inflow characteristics within geothermal wells.
The dataset includes raw and cleaned measurements from Run-In-Hole (RIH) and Pull-Out-of-Hole (POOH) operations at both wells. The CSV files below house all raw and cleaned data, named after the associated well, operation type (RIH and POOH), and whether it is raw, cleaned, or supplemented with calculations. Data entries are timestamped and include variables such as depth, chloride concentrations (in voltage and calculated molar units), pressure, temperature, tool velocity, and various sensor outputs. Calculated fields derived from processed signals are also provided. Units are labeled in the data files, with concentration values reported in mol/L and pressure in PSI. The accompanying documentation includes data processing explanations, presentations visualizing results, and a final project report.
Citation Formats
TY - DATA
AB - This dataset comprises field logging data collected during chemical-based tool deployments at the Utah FORGE geothermal site, specifically at monitoring well 58-32 and production well 16B(78)-32. Data acquisition occurred during the Summer 2024 circulation testing campaign, with tool runs in well 58-32 conducted between June 12-14, 2024, and in well 16B(78)-32 on August 19, 2024. The chemical sensing system utilized chloride ion-selective electrodes (ISEs) and associated high-temperature electronics integrated into a wireline assembly, enabling real-time measurement of inflow characteristics within geothermal wells.
The dataset includes raw and cleaned measurements from Run-In-Hole (RIH) and Pull-Out-of-Hole (POOH) operations at both wells. The CSV files below house all raw and cleaned data, named after the associated well, operation type (RIH and POOH), and whether it is raw, cleaned, or supplemented with calculations. Data entries are timestamped and include variables such as depth, chloride concentrations (in voltage and calculated molar units), pressure, temperature, tool velocity, and various sensor outputs. Calculated fields derived from processed signals are also provided. Units are labeled in the data files, with concentration values reported in mol/L and pressure in PSI. The accompanying documentation includes data processing explanations, presentations visualizing results, and a final project report.
AU - Sausan, Sarah
A2 - Schneider, Melanie
A3 - Horne, Roland
DB - Open Energy Data Initiative (OEDI)
DP - Open EI | National Renewable Energy Laboratory
DO -
KW - geothermal
KW - energy
KW - chloride
KW - chemical tool
KW - wireline
KW - Utah FORGE
KW - ISE
KW - geothermal logging
KW - chloride sensor
KW - ion-selective electrode
KW - inflow detection
KW - 58-32
KW - 16B78-32
KW - chemical logging tool
KW - POOH
KW - Pull Out of Hole
KW - RIH
KW - Run In Hole
KW - high-temperature tool
KW - circulation test
KW - pressure-temperature-depth
KW - field logging data
KW - electrochemical
KW - chloride concentration
KW - fracture characterization
KW - reservoir charecterization
KW - raw data
KW - processed data
KW - technical report
KW - visualizations
LA - English
DA - 2025/03/31
PY - 2025
PB - Stanford University
T1 - Utah FORGE: Chemical-Based Tool Deployment Data for Inflow Detection at Wells 58-32 and 16B(78)-32 - Summer 2024 Circulation Test
UR - https://data.openei.org/submissions/8408
ER -
Sausan, Sarah, et al. Utah FORGE: Chemical-Based Tool Deployment Data for Inflow Detection at Wells 58-32 and 16B(78)-32 - Summer 2024 Circulation Test. Stanford University, 31 March, 2025, GDR. https://gdr.openei.org/submissions/1738.
Sausan, S., Schneider, M., & Horne, R. (2025). Utah FORGE: Chemical-Based Tool Deployment Data for Inflow Detection at Wells 58-32 and 16B(78)-32 - Summer 2024 Circulation Test. [Data set]. GDR. Stanford University. https://gdr.openei.org/submissions/1738
Sausan, Sarah, Melanie Schneider, and Roland Horne. Utah FORGE: Chemical-Based Tool Deployment Data for Inflow Detection at Wells 58-32 and 16B(78)-32 - Summer 2024 Circulation Test. Stanford University, March, 31, 2025. Distributed by GDR. https://gdr.openei.org/submissions/1738
@misc{OEDI_Dataset_8408,
title = {Utah FORGE: Chemical-Based Tool Deployment Data for Inflow Detection at Wells 58-32 and 16B(78)-32 - Summer 2024 Circulation Test},
author = {Sausan, Sarah and Schneider, Melanie and Horne, Roland},
abstractNote = {This dataset comprises field logging data collected during chemical-based tool deployments at the Utah FORGE geothermal site, specifically at monitoring well 58-32 and production well 16B(78)-32. Data acquisition occurred during the Summer 2024 circulation testing campaign, with tool runs in well 58-32 conducted between June 12-14, 2024, and in well 16B(78)-32 on August 19, 2024. The chemical sensing system utilized chloride ion-selective electrodes (ISEs) and associated high-temperature electronics integrated into a wireline assembly, enabling real-time measurement of inflow characteristics within geothermal wells.
The dataset includes raw and cleaned measurements from Run-In-Hole (RIH) and Pull-Out-of-Hole (POOH) operations at both wells. The CSV files below house all raw and cleaned data, named after the associated well, operation type (RIH and POOH), and whether it is raw, cleaned, or supplemented with calculations. Data entries are timestamped and include variables such as depth, chloride concentrations (in voltage and calculated molar units), pressure, temperature, tool velocity, and various sensor outputs. Calculated fields derived from processed signals are also provided. Units are labeled in the data files, with concentration values reported in mol/L and pressure in PSI. The accompanying documentation includes data processing explanations, presentations visualizing results, and a final project report.},
url = {https://gdr.openei.org/submissions/1738},
year = {2025},
howpublished = {GDR, Stanford University, https://gdr.openei.org/submissions/1738},
note = {Accessed: 2025-05-06}
}
Details
Data from Mar 31, 2025
Last updated May 6, 2025
Submitted May 5, 2025
Organization
Stanford University
Contact
Sarah Sausan
Authors
Original Source
https://gdr.openei.org/submissions/1738Research Areas
Keywords
geothermal, energy, chloride, chemical tool, wireline, Utah FORGE, ISE, geothermal logging, chloride sensor, ion-selective electrode, inflow detection, 58-32, 16B78-32, chemical logging tool, POOH, Pull Out of Hole, RIH, Run In Hole, high-temperature tool, circulation test, pressure-temperature-depth, field logging data, electrochemical, chloride concentration, fracture characterization, reservoir charecterization, raw data, processed data, technical report, visualizationsDOE Project Details
Project Name Wellbore Fracture Imaging Using Inflow Detection Measurements
Project Lead Angel Nieto
Project Number 32418
