|
|
| |
Review of Experimental and Numerical Approaches to Wellbore Material Performance Under Supercritical Geothermal Conditions
Meng MENG, Tatiana PYATINA, Will KIBIKAS, Eva SCHILL, Nicole TAVERNA, Scott MELLO, Travis BROADHUST
[Los Alamos National Lab, USA]
Advanced testing and verification tools for supercritical geothermal well materials are critical for successful well construction and operation, as they enable the effective selection of appropriate materials. Through reviewing existing methods, published results, and insights into material behavior from public literature and expert interviews, we identified the primary challenges, knowledge gaps, and recommendations for future tools/methods development. Major challenges include replicating high-temperature ( greater than 375 °C) and high-pressure ( greater than 22 MPa) conditions in laboratory environments while accommodating realistic material dimensions and dynamic fluid flow, performing in-situ measurements, and validating newly developed simulation tools. In this review paper, we focus on tools and methods for characterization of fluid chemistry, mechanical degradation, corrosion rates, wellbore hydraulics, and well integrity. Some interesting findings include but not limited to: (1) both experiments and simulations demonstrate that corrosion is more severe in subcritical conditions (around 350 °C) than supercritical conditions; (2) casing materials exhibit pronounced plasticity at high temperatures, whereas rock and cement materials require further investigation due to the complex brittle-to-ductile transition that depends on lithology, chemical composition, and mineralogy; (3) there is a lack of experimental validation of cement mechanical properties and cement stress state at supercritical conditions; and (4) some reported tests, though not originally focused on well materials, can be leveraged for well material assessment—such as strength testing of proppants and rocks, permeability tests on reservoir rocks, fluid chemistry analyses, and hydraulic fracturing experiments. The testing and validation overview highlights the critical research priorities for advancing the understanding and performance of well construction materials in supercritical geothermal environments.
Topic: Drilling