1 |
Thermodynamic analysis of a novel solar-driven booster-assisted ejector refrigeration cycle Cheng Y, Wang M, Yu JL Solar Energy, 218, 85, 2021 |
2 |
Thermodynamic performance evaluation of the CO2 parallel compression supermarket refrigeration system with a subcooler Wang Z, Zhao HX, Wang XL, Han JT, Lai YH International Journal of Energy Research, 44(8), 6709, 2020 |
3 |
Thermodynamic analysis of transcritical CO2 refrigeration cycle integrated with thermoelectric subcooler and ejector Liu X, Fu RS, Wang ZQ, Lin L, Sun ZX, Li XL Energy Conversion and Management, 188, 354, 2019 |
4 |
Thermodynamic performance evaluation of transcritical carbon dioxide refrigeration cycle integrated with thermoelectric subcooler and expander Dai BM, Liu SC, Zhu K, Sun ZL, Ma YT Energy, 122, 787, 2017 |
5 |
Simulation on effects of subcooler on cooling performance of multi-split variable refrigerant flow systems with different lengths of refrigerant pipeline Li ZA, Wang BL, Li XT, Shi WX Energy and Buildings, 126, 301, 2016 |
6 |
Performance optimization of transcritical CO2 refrigeration cycle with thermoelectric subcooler Sarkar J International Journal of Energy Research, 37(2), 121, 2013 |
7 |
Field performance measurements of a VRF system with sub-cooler in educational offices for the cooling season Kwon L, Hwang Y, Radermacher R, Kim B Energy and Buildings, 49, 300, 2012 |
8 |
On subcooler design for integrated two-temperature supermarket refrigeration system Yang LA, Zhang CL Energy and Buildings, 43(1), 224, 2011 |
9 |
Comparative evaluation of the intermediate systems employed in two-stage refrigeration cycles driven by compound compressors Cabello R, Torrella E, Llopis R, Sanchez D Energy, 35(3), 1274, 2010 |
10 |
Analysis on energy saving potential of integrated supermarket HVAC and refrigeration systems using multiple subcoolers Yang L, Zhang CL Energy and Buildings, 42(2), 251, 2010 |