Carbon Capture and Storage

Auteur
Simon is Research Scientist at SINTEF Energy Research and has more than 10 years of experience in Carbon Capture and Storage (CCS). In addition to his position at SINTEF, he has also worked at the Economic studies department at IFPEN (France) and has been a visiting researcher at Carnegie Mellon University in the Engineering and Public Policy department.
His areas of expertise include techno-economic analysis, value chain analysis, and optimization of CCS and hydrogen. He has authored more than 45 scientific publications, and has been project leader and sub-project leader for multiple Norwegian and international projects. Simon has a M.Sc in Chemical Engineering from ENSIC (Nancy, France) and an M.Sc in Energy Economics Engineering from IFP School (Rueil-Malmaison, France). Rahul is a Research Scientist at SINTEF Energy Research. He has worked in CCS, H2 production from NG for over 15 years apart from experience in energy efficiency improvement and debottlenecking in refineries (over 4 years) and design and commissioning of NPK fertilizer plants (around 3 years).
Rahul's expertise is on systematic design, integration and optimization of separation and fuel conversion processes. He has extensively worked on integrating and benchmarking CO2 capture technologies in different industrial and power plants. He has led multiple industrial projects in addition to being project leader and sub-project leader of multiple Norwegian and international projects. Rahul Anantharaman has a PhD in Energy and Process Engineering from Norwegian University of Science and Technology (NTNU).

Texte du rabat
Handbook on Advanced Carbon Capture and Storage: A Comprehensive Guide is a comprehensive presentation of the latest advances in research and technology on Carbon Capture and Storage (CCS). Given the urgency of scale-up and implementation of CCS to meet worldwide climate goals, this book addresses and engages all key stakeholders covering technical, economic, environmental, and legal aspects of CCS. The team of expert authors offer lessons learned to aid readers working on advancing CCS technologies and applications, considering a variety of relevant industries.

This book will guide students and researchers through the latest research on CCS enabling them to identify new research topics to advance the field further. Professionals responsible for implementing advanced CCS to help reach climate goals will use this book as a guide to inform their activity and they will gain invaluable insight from lessons learned and best practices included.

Contenu

Section 1: Introduction 1. An introduction to CCS 2. The role of CCS in reducing global GHG emissions Section 2: CO2 capture processes 3. Absorption 4. Membrane 5. Adsorption 6. Low-temperature 7. Oxy-combustion 8. Chemical looping 9. Hybrid processes Section 3: Applications 10. Power 11. Industry 12. Hydrogen 13. Maritime and offshore 14. CCS pathways to negative emissions (includes waste-to-energy, bioenergy with CCS, direct air capture) Section 4: CO2 transport and StorageCO2 transport and Storage are key element of ensuring permanent storage of captured 15. CO2 Transport 16. CO2 storage Section 5: Transversal aspect, for CCS chains 17. Thermodynamics for CCS 18. Cost of CCS 19. CO2 markets and financing CCS 20. Environmental aspects 21. Legal aspects Section 6: Perspectives and emerging CCS topics 22. Synergistic process and material synthesis approaches for CO2 capture 23. Environment perspective for material development 24. Moving technologies toward commercial implementation 25. Negative emissions in industry 26. Removal of non-CO2 component from air 27. Big data and digitalization for CCS Section 7: The way forward for CCS 28. Regional perspective on the way forward for CCS and Policies