Computational models for CO2 Geo-sequestration & compressed air energy storage /ceditors, Rafid Al-Khoury, Jochen Bundschuh
This book addresses two distinct, but related and highly important geoenvironmental applications: CO2 sequestration in underground formation, and Compressed Air Energy Storage (CAES). Sequestration of carbon dioxide in underground formations is considered an effective technique and a viable strategy...
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| Format: | Book |
|---|---|
| Language: | English |
| Published: |
EH Leiden, The Netherlands
CRC Press/Balkema
[2014]
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| Series: | Sustainable energy developments
10 |
| Subjects: | |
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Table of Contents:
- An introduction; PART I: CO2 Geo-sequestration; 2. On the theory of CO2 geo-sequestration; PART I.I: Reactive transport modeling; 3. Modeling multiscale-multiphase-multicomponent reactive flows in porous media: Application to CO2 sequestration and enhanced geothermal energy using PFLOTRAN. 4. Pore-network modeling of multi-component reactive transport under (variably- ) saturated conditions5. Reactive transport modeling issues of CO2 geological storage; PART I. II: Numerical modeling; 6. Role of computational science in geological storage of CO2; 7. A robust implicit pressure explicit mass method for multi-phase multi-component flow including capillary pressure and buoyancy; 8. Simulation of CO2 sequestration in brine aquifers with geomechanical coupling; 9. Model development for the numerical simulation of CO2 storage in naturally fractured saline aquifers. 10. Coupled partition of unity-level set finite element formulation for CO2 geo-sequestrationPART I. III: Aquifer optimization; 11. Optimization and data assimilation for geological carbon storage; 12. Density-driven natural convection flow of CO2 in heterogeneous porous media; PART II: Compressed air energy storage; 13. An introduction to the compressed air energy storage; 14. Simulation of an isobaric adiabatic compressed air energy storage combined cycle; 15. Rigorous process simulation of compressed air energy storage (CAES) in porous media systems