Recent Advancement of Thermal Fluid Engineering in the Supercritical CO<sub>2</sub> Power Cycle
Recent Advancement of Thermal Fluid Engineering in the Supercritical CO2 Power Cycle
English[eng]
emergency diesel generator||supercritical carbon dioxide cycle||waste heat recovery system||bottoming cycle||re-compression Brayton cycle||carbon dioxide||supercritical||thermodynamic||exergy||cycle simulation||design point analysis||radial-inflow turbine||supercritical carbon dioxide||air||rotor solidity||aerodynamic performance||centrifugal compressor||aerodynamic optimization design||numerical simulation||radial turbine||utility-scale||turbomachinery design||NET Power||supercritical CO2||heat exchanger||flow analysis||thermal stress analysis||LCoE||CSP||concentrated-solar power||axial turbine design||micro-scale turbomachinery design||n/a
English[eng]
emergency diesel generator||supercritical carbon dioxide cycle||waste heat recovery system||bottoming cycle||re-compression Brayton cycle||carbon dioxide||supercritical||thermodynamic||exergy||cycle simulation||design point analysis||radial-inflow turbine||supercritical carbon dioxide||air||rotor solidity||aerodynamic performance||centrifugal compressor||aerodynamic optimization design||numerical simulation||radial turbine||utility-scale||turbomachinery design||NET Power||supercritical CO2||heat exchanger||flow analysis||thermal stress analysis||LCoE||CSP||concentrated-solar power||axial turbine design||micro-scale turbomachinery design||n/a