SPE Online Education
Sponsored Webinar: Improve Carbon Capture, Utilization and Storage (CCUS) Projects with Subsurface Modeling & Simulation
Recorded On: 10/07/2021
Register now to learn how multiphysics and multiscale modeling and simulation solves CCUS geological storage questions
Achieving global net-zero emissions goals will be impossible without CCUS. To be successful, CCUS project teams must meet time and cost constraints while addressing three major engineering stages: 1) CO2 Capture, 2) Transportation 3) Geological Storage.
In this webinar, we will focus on Geological Storage modeling & simulation capabilities. In general, Geological formations for CO2 storage must have sufficient capacity and injectivity as well as the ability to confine the lateral or vertical migration of CO2 to the surface.
By attending this webinar, you will learn how multiphysics and multiscale simulation, including geomechanics simulation with SIMULIA Abaqus and pore-scale simulation with SIMULIA DigitalROCK, a virtual rock lab, are used to avoid costly mistakes and project delays by assessing CO2 storage capacity, injectivity and containment.
Multiphysics / Multiscale Simulation Highlights:
- Molecular and meso scale simulation of fluid/rock interactions
- Pore-scale and core scale simulation of multiphase digital rock floods
- Field scale mechanical earth model simulation
Senior Manager, Energy Industry Processes, Dassault Systèmes
Andrew Fager is a Senior Manager for Energy Industry Processes within the SIMULIA brand of Dassault Systèmes. Andrew has more than 10 years of experience in using multiphysics simulation to solve subsurface engineering problems. His expertise lies in the areas of multiphase flow and porous media simulation. He holds a M.S. in Mechanical Engineering from the University of Minnesota.