- Overview of CSM research and outreach activities – Mary F. Wheeler
- A locally conservative Eulerian-Lagrangian method for 1-D two-phase flow – Todd Arbogast
- A generalized, three-phase, hysteretic relative permeability model – Mohammad Reza Beygi
- Simulation of non-planar cracks driven by hydraulic fracturing – Steven Castonguay
- Efficient methods for Bayesian model calibration and comparison – Ahmed ElSheikh
- Domain decomposition methods in geomechanics – Horacio Florez
- The global Jacobian method for nonlinear domain decomposition with mortars – Ben Ganis
- Fluid flow modeling using Multi-point Flux Mixed Finite Element method – Gurpreet Singh
- Two scale approach for Mortar Mixed Finite Element method – Hailong Xiao
- Petrophysical modeling and history matching study on Cranfield pilot CO2 sequestration test – Xianhui Kong
- Upscaling of reactive flows – Kundan Kumar
- Multiblock pore-scale modeling and upscaling of reactive transport: application to carbon sequestration – Yashar Mehmani
- Mimetic finite differences for flow in fractures – Omar Al Hinai
- A posteriori error estimates for flow in porous media – Gergina Pencheva
- Revisiting permeability of shales – A. Sakhaee-Pour
- Integrating geomechanics within a pattern based simulation framework for natural fracture networks – Sanjay Srinivasan
- Multidimensional scaling with Ensemble Kalman Filter – Reza Tavakoli
- Optimal control and parameter estimation for stationary fluid-structure interaction – Thomas Wick
- Numerical convergence study of iterative coupling for coupled flow and geomechanics – Bin Wang
- Domain decomposition for coupled flow and geomechanics – Ivan Yotov
- Commercial scale simulations of surfactant and polymer flooding – Changli Yuan
