Time: | June 12, 2024 |
---|---|
Venue: | University of Stuttgart Hörsaal V 7.01 Pfaffenwaldring 7 70569 Stuttgart |
Download as iCal: |
|
We cordially invite you to the inaugural lecture of Maartje Boon, junior professor within the Collaborative Research Centre 1313 "Interface-Driven Multi-Field Processes in Porous Media – Flow, Transport and Deformation" (SFB 1313 ) and the Cluster of Excellence “Data Integrated Simulation Science” (SimTech) at the Institute of Applied Mechanics (MIB) at the University of Stuttgart.
Subsurface Gas Storage in Porous Reservoirs: A Pathway to Sustainable Energy?
Large-scale subsurface gas storage in porous reservoirs has the potential to be an important component of a sustainable energy future. Geological carbon dioxide storage can mitigate CO2 emissions, while underground energy storage, particularly in the form of hydrogen, offers a potential solution for balancing renewable energy production and demand. While the concept of storing gases in subsurface reservoirs is not new - natural gas has been safely stored underground for decades - the distinct physiochemical properties of methane, carbon dioxide, and hydrogen could lead to very different behavior in the subsurface. Reservoir simulation is a valuable tool for investigating the feasibility of large-scale subsurface gas storage in porous reservoirs. However, to obtain meaningful results, it is crucial that the input parameters accurately capture the behavior of the gas-brine-rock system, including the impact of small-scale rock heterogeneity. In this lecture, I will look at the differences between methane, carbon dioxide, and hydrogen storage, demonstrate how multi-phase flow in heterogeneous porous rock can be experimentally visualized and characterized from the pore- to the core-scale, and show how meaningful input parameters for reservoir simulators can be derived by integrating these experimental findings with numerical and analytical modeling techniques.
This will be followed by a reception in the foyer of the SimTech building, PWR5a.