Carbon Capture Technologies for Gas-Turbine-Based Power Plants
portes grátis
Carbon Capture Technologies for Gas-Turbine-Based Power Plants
Varasteh, Hirbod; Bazooyar, Bahamin; Darabkhani, Hamidreza Gohari
Elsevier Science Publishing Co Inc
09/2022
256
Mole
Inglês
9780128188682
15 a 20 dias
Descrição não disponível.
1. An Introduction to Gas Turbine Systems 2. Main Technologies in CO2 Capture 3. Oxyturbine Power Cycles and Gas-CCS Technologies 4. Process Modelling and Performance Analysis of The Leading Oxyturbine Cycles 5. Design Characteristics of Oxyfuel Combustion, Heat Exchanger Network and Turbomachinery 6. Oxygen Production and Air Separation Units (ASU) 7. Technoeconomic, Risk Analysis and Technology Readiness Level (TRL) In Oxyturbine Power Cycles 8. Conclusion and Future Works
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?Air separation unit (ASU); Aspen Plus software; Brayton cycle; CES cycle; CO2 compression and purification unit (CPU); Carbon capture and storage (CCS); Combustion outlet pressure (COP); Cryogenic ASU; Energy and exergy analysis; Exergy destruction; Gas turbine; Gas turbine power plants; Gas turbine-based power plants; Greenhouse gases (GHG); Heat engine; Heat exchanger; Levellised cost of energy (LCOE); Natural gas combined cycle (NGCC); Netpower cycle; Noncryogenic ASU; Operational parameters; Oxy-fuel combustion capture; Oxycombustion; Oxycombustion capture; Oxyfuel combustion; Oxyturbine power cycles; Post-combustion capture; Postcombustion capture (PCC); Pre-combustion capture; Process simulation; Radial combustor; Recycled flue gas (RFG); Technoeconomic analysis; Technology readiness level (TRL); Thermodynamic analysis; Turbine inlet temperature (TIT); Turbine outlet temperature (TOT)
1. An Introduction to Gas Turbine Systems 2. Main Technologies in CO2 Capture 3. Oxyturbine Power Cycles and Gas-CCS Technologies 4. Process Modelling and Performance Analysis of The Leading Oxyturbine Cycles 5. Design Characteristics of Oxyfuel Combustion, Heat Exchanger Network and Turbomachinery 6. Oxygen Production and Air Separation Units (ASU) 7. Technoeconomic, Risk Analysis and Technology Readiness Level (TRL) In Oxyturbine Power Cycles 8. Conclusion and Future Works
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?Air separation unit (ASU); Aspen Plus software; Brayton cycle; CES cycle; CO2 compression and purification unit (CPU); Carbon capture and storage (CCS); Combustion outlet pressure (COP); Cryogenic ASU; Energy and exergy analysis; Exergy destruction; Gas turbine; Gas turbine power plants; Gas turbine-based power plants; Greenhouse gases (GHG); Heat engine; Heat exchanger; Levellised cost of energy (LCOE); Natural gas combined cycle (NGCC); Netpower cycle; Noncryogenic ASU; Operational parameters; Oxy-fuel combustion capture; Oxycombustion; Oxycombustion capture; Oxyfuel combustion; Oxyturbine power cycles; Post-combustion capture; Postcombustion capture (PCC); Pre-combustion capture; Process simulation; Radial combustor; Recycled flue gas (RFG); Technoeconomic analysis; Technology readiness level (TRL); Thermodynamic analysis; Turbine inlet temperature (TIT); Turbine outlet temperature (TOT)
