“CO2RINA”—CO2 Storage Risk Integrated Analysis
作者: René Kahnt , Alexander Kutzke , Mirko Martin , Michael Eckart , Ralph Schlüter
DOI: 10.1007/978-3-319-13930-2_7
关键词: Direct coupling 、 Process modeling 、 Coupling (computer programming) 、 Diffusion (business) 、 Moment (mathematics) 、 Control engineering 、 Transfer function 、 Data mining 、 Fault model 、 Range (mathematics) 、 Computer science
摘要: While risk assessment for CO2-storage often has been conducted by using a lot of simplifications and conservatisms, our approach developed in the CO2RINA-research project is based on integration all models, existing at moment time. These models will be coupled so called transfer function which proven to very powerful low level radioactive waste. This concept ensures, that always consistent with state specific site. It can immediately improved if over The was verified comparison direct coupling different process an overall model functions conducting wide range test calculations showing good accuracy approach. new allows incorporation variety additional effects are difficult handle model. Examples such processes complex chemical microbiological interactions, geomechanical feedback loops migration CO2 atmosphere. In there have specified generic site parameters similar Ketzin include reservoir model, alteration cementation mature well, fault describing advection diffusion through cap rock, Quaternary aquifer including interactions Additionally shown way modelled detail CO2BIOPERM project. ready adapted
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