Thermoelastic fracturing and buoyancy-driven convection – Surprising sources of longevity for EGS circulation
This article was originally posted as a ResFrac blog post, and published on arXiv in August 2023.
Technical Barriers for Deep Closed-Loop Geothermal
This article was originally posted as a ResFrac blog post, and published on arXiv in March 2023.
Numerical Modeling of Hydraulic Stimulation and Long-Term Fluid Circulation at the Utah FORGE Project
Proceedings of the 49th Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, CA on February 12-14, 2024.
Calibration Parameters Required to Match the Utah FORGE 16A(78)-32 Stage 3 Stimulation with a Planar Fracturing Model
Proceedings of the 48th Workshop on Geothermal Reservoir Engineering, Stanford University, Stanford, California, February 6-8, 2023.
A Feasibility Study on Three Geothermal Designs: Deep Closed-Loop (with and without Conductive Fractures) and Open-Loop Circulation Between Multifractured Laterals
Conference paper published in the October 2021 GRC Transactions, Vol. 45, 2021.
Guest Editorial: Why Multistage Stimulation Could Transform the Geothermal Industry
Journal Paper published in the Journal of Petroleum Technology on October 1, 2021.
Utilizing Thermally Controlled Fluid to Improve Cluster Uniformity and Efficiency
Paper presented at the SPE Symposium: Unconventionals in the Middle East – From Exploration to Development Optimisation, Manama, Bahrain, March 2022.
Optimization and Design of Next-Generation Geothermal Systems Created by Multistage Hydraulic Fracturing
Paper presented at the SPE Hydraulic Fracturing Technology Conference and Exhibition, The Woodlands, Texas, USA, February 2022.