This book offers a thorough introduction to the fundamental theories and engineering applications of supercritical fluid flow and heat transfer, as well as the relevant equipment and power systems. It covers the organizational structure and processes of these systems, design methodologies, and optimization techniques for each component. Additionally, it highlights the latest advancements and key scientific challenges in energy and chemical technologies that leverage CO2 and water to improve efficiency and reduce carbon emissions.
Supercritical CO2 for Comprehensive Energy Systems is an essential resource for students, engineers, and scientists in related fields. It also offers government and business decision-makers innovative energy systems options to help achieve carbon neutrality.
This book offers a thorough introduction to the fundamental theories and engineering applications of supercritical fluid flow and heat transfer, as well as the relevant equipment and power systems. It covers the organizational structure and processes of these systems, design methodologies, and optimization techniques for each component. Additionally, it highlights the latest advancements and key scientific challenges in energy and chemical technologies that leverage CO2 and water to improve efficiency and reduce carbon emissions.
Supercritical CO2 for Comprehensive Energy Systems is an essential resource for students, engineers, and scientists in related fields. It also offers government and business decision-makers innovative energy systems options to help achieve carbon neutrality.
Lin Chen
Advanced Control Advanced Power System Energy Efficiency sCO2 Design Method and Optimization Heat Transfer and Flow Characteristics sCO2 Materials and Equipment Multi-Energy Complimentary Systems PCHE Heat Exchangers Power Generation Supercritical CO2 (sCO2) Thermal Conversion Turbines and Compressors