Testing LCM on a Large Scale for Geothermal Drilling Applications Using a Novel Experimental Setup
Rheology data obtained from flow loop tests, performed using different lost circulation materials (LCM) to study their effect on fluid rheology and wellbore hydraulics. The sealing performance of different LCM was tested using different fracture sizes. Five academic papers / reports derived from this research are also presented.
Citation Formats
University of Oklahoma. (2022). Testing LCM on a Large Scale for Geothermal Drilling Applications Using a Novel Experimental Setup [data set]. Retrieved from https://dx.doi.org/10.15121/1986418.
Mohamed, Abdelmjeed, Salehi, Saeed, Ahmed, Ramadan, and Li, Guoqiang. Testing LCM on a Large Scale for Geothermal Drilling Applications Using a Novel Experimental Setup. United States: N.p., 22 Apr, 2022. Web. doi: 10.15121/1986418.
Mohamed, Abdelmjeed, Salehi, Saeed, Ahmed, Ramadan, & Li, Guoqiang. Testing LCM on a Large Scale for Geothermal Drilling Applications Using a Novel Experimental Setup. United States. https://dx.doi.org/10.15121/1986418
Mohamed, Abdelmjeed, Salehi, Saeed, Ahmed, Ramadan, and Li, Guoqiang. 2022. "Testing LCM on a Large Scale for Geothermal Drilling Applications Using a Novel Experimental Setup". United States. https://dx.doi.org/10.15121/1986418. https://gdr.openei.org/submissions/1446.
@div{oedi_1446, title = {Testing LCM on a Large Scale for Geothermal Drilling Applications Using a Novel Experimental Setup}, author = {Mohamed, Abdelmjeed, Salehi, Saeed, Ahmed, Ramadan, and Li, Guoqiang.}, abstractNote = {Rheology data obtained from flow loop tests, performed using different lost circulation materials (LCM) to study their effect on fluid rheology and wellbore hydraulics. The sealing performance of different LCM was tested using different fracture sizes. Five academic papers / reports derived from this research are also presented.}, doi = {10.15121/1986418}, url = {https://gdr.openei.org/submissions/1446}, journal = {}, number = , volume = , place = {United States}, year = {2022}, month = {04}}
https://dx.doi.org/10.15121/1986418
Details
Data from Apr 22, 2022
Last updated Jun 27, 2023
Submitted Jan 4, 2023
Organization
University of Oklahoma
Contact
Saeed Salehi
405.325.6822
Authors
Keywords
Geothermal drilling, Lost circulation, Sealing efficiency, Rheology, High temperature, Flow loop, 3D printing, Temperature, characterization, Drilling fluid additives, Shape memory polymer, Geothermal wells, HPHT challenges, Drilling fluid, Wellbore hydraulics, Hole cleaning, Fluid stability, Smart LCM, HT Flow loop, Lost circulation material, Annular flow, Rheological properties, geothermal, energy, viscosifier, filtration control, HPHT, geochemistry, wellbore, drilling technology, experiment, technology, report, SGW, model, drilling, processed dataDOE Project Details
Project Name Developing Advanced Lost Prevention Methods and Smart Wellbore Strengthening Materials for Geothermal Wells
Project Lead Angel Nieto
Project Number EE0008602