|CO2SINK-In-situ R&D Laboratory for Geological Storage of CO2|
WP 6.1: Dynamic Flow Modeling
|Project manager:||Dr.-Ing. Holger Class|
|Deputy:||Prof. Dr.-Ing. Rainer Helmig|
|Research assistants:||Dr.-Ing. Andreas Kopp, M.Sc.|
Dr.-Ing. Melanie Darcis
|Duration:||1.4.2004 - 31.3.2009|
|Funding:||Sixth Framework Programme of EU|
Geological Survey of Denmark and Greenland, Copenhagen, Denmark
Statoil ASA, Trondheim, Norway
Vibrometric Oy, Helsinki, Finland
DNV Research, Energy and Resources, Hovik, Norway
Shell International Exploration and Production B.V., Rijswijk, Netherlands
University of Kent, Canterbury, UK
IEA Environmental Projects Ltd, Cheltenham, UK
Schlumberger Carbon Services, La Defense, France
Uppsala University, Dept. of Earth Sciences, Uppsala, Sweden
MEERI, Polish Academy of Sciences, Krakow, Poland
This project is part of the research area:
Modeling of multiphase-multicomponent processes for the sequestration of CO2 in the subsurface
Abstract:Numerical modelling and simulation can address three important issues associated with the subsurface CO2 sequestration plans for CO2SINK, which practically cannot be examined with other means. These issues are:
The issues addressed are taylored to the specific characteristics of the Ketzin site and will follow closely the operational development of this sequestration facility. Moreover, the results from this study will be relevant to other similar geological environments in Europe and worldwide.
- Simulation of what-if scenarios to assist planning and design of the Ketzin subsurface sequestration laboratory and accompany the injection experiments.
- Understanding the long-term fate of CO2: plume evolution, phase changes, chemical reactions and their influence in the porespace/permeability evolutions of host and cap rocks.
- Support risk assessment for the long term evolution of the CO2 reservoir.