Hydraulic fracture modeling has become increasingly broad and interdisciplinary as it intersects with reservoir, production, well construction, geoscience, and data analytics. Modeling is used to run what-if scenarios for optimization and engineering design, synthesize diagnostics to characterize the subsurface, understand tradeoffs between variables, and improve our understanding of physical processes.
Outstanding papers over the past year have addressed topics such as casing deformation, well spacing, frac-design optimization, proppant transport in the well or in fractures, integrating diagnostics from field trials, and exploring the effects of lateral length on production.
While numerical simulation tools remain the dominant paradigm, an increasing number of papers are hybridizing data analytics and physics-based approaches. For many problems, data-driven approaches are applied. Technology developers face competing priorities—a desire for maximum physical realism along with a desire for large simulation domains, geological detail, fast runtimes, and rapid data integration. Because of these tradeoffs, a variety of solutions have emerged, each of which features relative strengths and weaknesses.
Practically, the appropriate selection of tool depends on the availability of data and the degree of physical understanding (Starfield and Cundall 1988). In all cases, tool selection and design should be driven by the practical and theoretical problems that need to be solved.
Summarized Papers in This November 2025 Issue
URTeC 4034948 Workflow Enables Effective Fracture-Geometry Analysis in Eagle Ford by Fatima Almarzoog and Kan Wu, Texas A&M University, and Ge Jin, Colorado School of Mines.
URTeC 4263421 Integration of Models Aids Prediction of Effects of Multibench Interference by Ruiting Wu, SPE, Xiaolong Liu, and Amit Singh, SPE, Chevron, et al.
IPTC 24850 Transfer-Learning Validation Improves Hydraulic Fracture Design by Abdul Muqtadir Khan, SPE, Esteban Ugarte, and Stevanus Kurniadi, SPE, SLB, et al.
Recommended Additional Reading
URTeC 4237332 Characterization and Mitigation of Production Degradation in Extended Laterals Using Physics-Based Simulation Tools by Gerardo Jimenez, Chevron, et al.
SPE 223571 Achieving Uniform Proppant Distribution in Horizontal Wellbore Clusters Using Computational Fluid Dynamics Modeling by A. Bahri, Colorado School of Mines, et al.
SPE 220608 Integrated Workflow With Hydraulic Fracture Propagation and Numerical Simulation Technology for Production Enhancement by Mingyu Jiang, Qinghai Oilfield Company, et al.
Mark McClure, SPE, is the CEO of ResFrac, which he established in 2015 to help operators maximize value through the application of advanced geomechanics and reservoir simulation. Before founding ResFrac, McClure was an assistant professor at The University of Texas at Austin in the Department of Petroleum and Geosystems Engineering. After earning a BS degree in chemical engineering and an MS degree in petroleum engineering from Stanford University, he earned a PhD degree in energy resources engineering from Stanford.