Thermal Efficiency Gains Enabled by Using CO2 Mixtures in Supercritical Power Cycles

[1]  A. Sayma,et al.  Sensitivity of transcritical cycle and turbine design to dopant fraction in CO2-based working fluids , 2021, Applied Thermal Engineering.

[2]  G. Manzolini,et al.  Experimental and analytical procedure for the characterization of innovative working fluids for power plants applications , 2020, Applied Thermal Engineering.

[3]  E. Macchi,et al.  CO2-TiCl4 working fluid for high-temperature heat source power cycles and solar application , 2020 .

[4]  D. Sánchez,et al.  Capital Cost Assessment of Concentrated Solar Power Plants Based on Supercritical Carbon Dioxide Power Cycles , 2019, Journal of Engineering for Gas Turbines and Power.

[5]  G. Manzolini,et al.  CO2 mixtures as innovative working fluid in power cycles applied to solar plants. Techno-economic assessment , 2019, Solar Energy.

[6]  Jeong-Ik Lee,et al.  Preliminary Study of Supercritical CO2 Mixed With Gases for Power Cycle in Warm Environments , 2018, Volume 9: Oil and Gas Applications; Supercritical CO2 Power Cycles; Wind Energy.

[7]  C. Invernizzi Prospects of Mixtures as Working Fluids in Real-Gas Brayton Cycles , 2017 .

[8]  D. Sánchez,et al.  Analysis of the Thermodynamic Potential of Supercritical Carbon Dioxide Cycles: A Systematic Approach , 2017 .

[9]  Ho-Sang Ra,et al.  Development of the Supercritical Carbon Dioxide Power Cycle Experimental Loop in KIER , 2016 .

[10]  Craig Turchi,et al.  Supercritical CO2 Power Cycles: Design Considerations for Concentrating Solar Power , 2014 .

[11]  Eric M. Clementoni,et al.  Supercritical Carbon Dioxide Brayton Power Cycle Development Overview , 2012 .

[12]  C. Invernizzi,et al.  Supercritical and real gas Brayton cycles operating with mixtures of carbon dioxide and hydrocarbons , 2012 .

[13]  Y. Jeong,et al.  Potential improvements of supercritical recompression CO2 Brayton cycle by mixing other gases for power conversion system of a SFR , 2011 .

[14]  Timothy James Held,et al.  Transforming Waste Heat to Power through Development of a CO2 - Based Power Cycle , 2011 .

[15]  Gary E Rochau,et al.  Modeling and experimental results for condensing supercritical CO2 power cycles. , 2011 .

[16]  Josep C. Pàmies,et al.  Vapor-Liquid Equilibrium of Carbon Dioxide-Perfluoroalkane Mixtures: Experimental Data and SAFT Modeling , 2006 .

[17]  Vaclav Dostal,et al.  A supercritical carbon dioxide cycle for next generation nuclear reactors , 2004 .

[18]  R. M. Izatt,et al.  Titanium tetrachloride-supercritical carbon dioxide interaction: A solvent extraction and thermodynamic study , 1992 .

[19]  Giovanni Lozza,et al.  Design Criteria and Efficiency Prediction for Radial Inflow Turbines , 1987 .

[20]  G. Angelino Real Gas Effects in Carbon Dioxide Cycles , 1969 .

[21]  E. Feher SUPERCRITICAL THERMODYNAMIC POWER CYCLE. , 1967 .