Thermodynamic analysis and performance evaluation of a novel energy storage-based supercritical CO2 power system with ejector driven by nuclear energy

[1]  G. Shu,et al.  Comparison of different load-following control strategies of a sCO2 Brayton cycle under full load range , 2022, Energy.

[2]  Xiaojie Guo,et al.  Research on Response Characteristics and Control Strategy of the Supercritical Carbon Dioxide Power Cycle , 2021, Processes.

[3]  N. Rogalev,et al.  Structural and Parametric Optimization of S–CO2 Nuclear Power Plants , 2021, Entropy.

[4]  Gang Hong,et al.  Comparative study of the supercritical carbon-dioxide recompression Brayton cycle with different control strategies , 2021, Progress in Nuclear Energy.

[5]  Chenxing Hu,et al.  Thermoeconomic analysis and inter‐stage pressure ratio optimization of nuclear power supercritical CO2 multi‐stage recompression , 2020, International Journal of Energy Research.

[6]  Yiping Dai,et al.  Preliminary conceptual design and thermo-economic analysis of a combined cooling, heating and power system based on supercritical carbon dioxide cycle , 2020 .

[7]  Yiping Dai,et al.  Preliminary design and part-load performance analysis of a recompression supercritical carbon dioxide cycle combined with a transcritical carbon dioxide cycle , 2020 .

[8]  Xue Du,et al.  Operation characteristic of supercritical carbon dioxide-cooled reactor system under coordination control scheme , 2020 .

[9]  Jekyoung Lee,et al.  A Supercritical CO2 Waste Heat Recovery System Design for a Diesel Generator for Nuclear Power Plant Application , 2019, Applied Sciences.

[10]  Pan Zhao,et al.  Preliminary conceptual design and performance assessment of combined heat and power systems based on the supercritical carbon dioxide power plant , 2019, Energy Conversion and Management.

[11]  J. Qin,et al.  Power optimization and comparison between simple recuperated and recompressing supercritical carbon dioxide Closed-Brayton-Cycle with finite cold source on hypersonic vehicles , 2019, Energy.

[12]  Wei Wei,et al.  Optimization of supercritical nuclear power system based on sodium cooled fast reactor , 2019, IOP Conference Series: Earth and Environmental Science.

[13]  Jacek Smolka,et al.  A gas ejector for CO2 supercritical cycles , 2018, Energy.

[14]  Min-Soo Kim,et al.  Characteristics and optimization of supercritical CO2 recompression power cycle and the influence of pinch point temperature difference of recuperators , 2018 .

[15]  Robbie McNaughton,et al.  Thermodynamic feasibility of alternative supercritical CO2 Brayton cycles integrated with an ejector , 2016 .

[16]  Gary E Rochau,et al.  Performance Characteristics of an Operating Supercritical CO2 Brayton Cycle , 2012 .

[17]  Liu Shuang,et al.  An experimental and theoretical study of a CO2 ejector , 2010 .

[18]  James J. Sienicki,et al.  Transient accident analysis of a supercritical carbon dioxide Brayton cycle energy converter coupled to an autonomous lead-cooled fast reactor , 2008 .

[19]  Vaclav Dostal,et al.  High-Performance Supercritical Carbon Dioxide Cycle for Next-Generation Nuclear Reactors , 2006 .

[20]  Eckhard A. Groll,et al.  Transcritical CO2 refrigeration cycle with ejector-expansion device , 2005 .

[21]  Jiping Liu,et al.  Development of operation strategy for recompression supercritical CO2 cycle with intercooled main compressor under off-design condition , 2019, E3S Web of Conferences.