Title: |
Evaluation of Physics-Based Limiter Redesign Drilling and Alternative Bit Design at the Geysers |
Authors: |
Jiann SU, Peter SO, Justin WRIEDT, John MCLENNAN, Milind DEO, Samuel F. NOYNAERT, David RAYMOND, Melanie SCHNEIDER |
Key Words: |
drilling, PDC, limiter, redesign, geothermal, geysers |
Conference: |
Stanford Geothermal Workshop |
Year: |
2024 |
Session: |
Drilling |
Language: |
English |
Paper Number: |
Su |
File Size: |
3757 KB |
View File: |
|
As part of a U.S. DOE Geothermal Technologies Office funding opportunity, Geysers Power Company, LLC partnered with Sandia National Labs, EGI at the University of Utah, and Texas A&M University to demonstrate increased drilling performance at the Geysers Geothermal Field. The performance target in the drilling demonstrations is at least a 25% improvement in rates of penetration with increased time on bottom for each bit. The project will leverage advances in oil and gas drilling technologies including PDC bits, along with the physics-based limiter redesign techniques championed in drilling demonstrations conducted at the Utah FORGE geothermal site. The planned drilling demonstrations are being conducted as part of an existing drilling campaign intended to enhance reservoir utilization. The wells are typically drilled to the top of the reservoir with mud and then air-drilled to total depth (TD) through fractured zones at temperatures ≥ 450°F. A major goal of the project is to assess the effectiveness of implementing mechanical specific energy (MSE) and drilling dysfunction diagnosis and remediation in these challenging environments, as well as alternate bit technologies. The first demonstration well has been completed, with a total of 15 PDC bit runs in the 17.5”, 12.25” and 8.5” sections. Initial analysis shows ROP gains in all three hole sections, especially in the 17.5” and 12.25” sections, compared with conventional roller cone bit runs in the demonstration well and offset wells. However in the 8.5” hole, wear and damage to the PDC bits resulted in relatively short bit runs. Analysis is underway to take advantage of the positive results and remediate the challenges. SNL is managed and operated by NTESS under DOE NNSA contract DE-NA0003525
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