Lost Circulation Materials in Geothermal Drilling: Thermal Degradation, Viscosity, Compression, and Flow Loop Tests
This dataset provides a set of experimental data on the performance of lost circulation materials (LCMs) used in geothermal drilling operations. It includes results from four distinct tests: thermal degradation, viscosity measurements, compression tests, and high-temperature flow loop experiments. The materials tested, such as cedar fiber, cotton seed hulls, magma fiber, microcellulose, and sawdust, were analyzed under a range of conditions to assess their effectiveness in mitigating fluid losses in geothermal wells.
Data on thermal degradation explores mass loss, water loss, and gas release for each material when subjected to temperatures between 90C and 250C. Viscosity measurements capture the behavior of LCM mixtures under different temperatures, while compression tests investigate the structural integrity of both undegraded and thermally degraded materials. The high-temperature flow loop experiments simulate geothermal well conditions, analyzing how different materials and mixtures affect fluid flow and sealing performance in a fractured reservoir environment. In addition to the experimental data, the dataset includes photos documenting the materials, schematics of test setups, and several published manuscripts that provide detailed insights into the experimental methods and findings.
Citation Formats
Sandia National Laboratories. (2022). Lost Circulation Materials in Geothermal Drilling: Thermal Degradation, Viscosity, Compression, and Flow Loop Tests [data set]. Retrieved from https://dx.doi.org/10.15121/2473672.
Kibikas, William, Nakagawa, Seiji, Ingraham, Mathew, Bauer, Stephen, Chang, Chun, Dobson, Patrick, Kneafsey, Timothy, and Samuel, Abraham. Lost Circulation Materials in Geothermal Drilling: Thermal Degradation, Viscosity, Compression, and Flow Loop Tests. United States: N.p., 01 Feb, 2022. Web. doi: 10.15121/2473672.
Kibikas, William, Nakagawa, Seiji, Ingraham, Mathew, Bauer, Stephen, Chang, Chun, Dobson, Patrick, Kneafsey, Timothy, & Samuel, Abraham. Lost Circulation Materials in Geothermal Drilling: Thermal Degradation, Viscosity, Compression, and Flow Loop Tests. United States. https://dx.doi.org/10.15121/2473672
Kibikas, William, Nakagawa, Seiji, Ingraham, Mathew, Bauer, Stephen, Chang, Chun, Dobson, Patrick, Kneafsey, Timothy, and Samuel, Abraham. 2022. "Lost Circulation Materials in Geothermal Drilling: Thermal Degradation, Viscosity, Compression, and Flow Loop Tests". United States. https://dx.doi.org/10.15121/2473672. https://gdr.openei.org/submissions/1660.
@div{oedi_6215, title = {Lost Circulation Materials in Geothermal Drilling: Thermal Degradation, Viscosity, Compression, and Flow Loop Tests}, author = {Kibikas, William, Nakagawa, Seiji, Ingraham, Mathew, Bauer, Stephen, Chang, Chun, Dobson, Patrick, Kneafsey, Timothy, and Samuel, Abraham.}, abstractNote = {This dataset provides a set of experimental data on the performance of lost circulation materials (LCMs) used in geothermal drilling operations. It includes results from four distinct tests: thermal degradation, viscosity measurements, compression tests, and high-temperature flow loop experiments. The materials tested, such as cedar fiber, cotton seed hulls, magma fiber, microcellulose, and sawdust, were analyzed under a range of conditions to assess their effectiveness in mitigating fluid losses in geothermal wells.
Data on thermal degradation explores mass loss, water loss, and gas release for each material when subjected to temperatures between 90C and 250C. Viscosity measurements capture the behavior of LCM mixtures under different temperatures, while compression tests investigate the structural integrity of both undegraded and thermally degraded materials. The high-temperature flow loop experiments simulate geothermal well conditions, analyzing how different materials and mixtures affect fluid flow and sealing performance in a fractured reservoir environment. In addition to the experimental data, the dataset includes photos documenting the materials, schematics of test setups, and several published manuscripts that provide detailed insights into the experimental methods and findings.}, doi = {10.15121/2473672}, url = {https://gdr.openei.org/submissions/1660}, journal = {}, number = , volume = , place = {United States}, year = {2022}, month = {02}}
https://dx.doi.org/10.15121/2473672
Details
Data from Feb 1, 2022
Last updated Oct 25, 2024
Submitted Sep 18, 2024
Organization
Sandia National Laboratories
Contact
William Kibikas
505.420.8019
Authors
Original Source
https://gdr.openei.org/submissions/1660Research Areas
Keywords
geothermal, energy, lost circulation materials, LCM, geothermal drilling, drilling, raw data, processed data, mass loss measurements, lost circulation management, degradation, thermal degradation, degradation pattern, rheology, fluid, drilliing fluid, high temperature, flow test, compression test, flow loop test, sealing, viscosity measurementsDOE Project Details
Project Name Improved Lost Circulation Management for Geothermal Drilling
Project Lead Alexandra Prisjatschew
Project Number FY19 AOP 2.1.3.1