| 1 |
Experimental investigation on the dynamic malfunction behavior of the two-phase ejector in a modified auto-cascade freezer refrigeration system
Bai T, Yan G, Yu JL
Energy Conversion and Management, 183, 382, 2019 |
| 2 |
Hybrid auto-cascade refrigeration system coupled with a heat-driven ejector cooling cycle
Hao XY, Wang L, Wang ZW, Tan YY, Yan XN
Energy, 161, 988, 2018 |
| 3 |
Experimental research on the pull-down performance of an ejector enhanced auto-cascade refrigeration system for low-temperature freezer
Bai T, Yan G, Yu JL
Energy, 157, 647, 2018 |
| 4 |
Parametric assessment and multi-objective optimization of an internal auto-cascade refrigeration cycle based on advanced exergy and exergoeconomic concepts
Asgari S, Noorpoor AR, Boyaghchi FA
Energy, 125, 576, 2017 |
| 5 |
Advanced exergy analysis on a modified auto-cascade freezer cycle with an ejector
Bai T, Yu JL, Yan G
Energy, 113, 385, 2016 |
| 6 |
Mixed refrigerant composition shift due to throttle valves opening in auto cascade refrigeration system
Xu XW, Liu JP, Cao L
Chinese Journal of Chemical Engineering, 23(1), 199, 2015 |
| 7 |
Energy and exergy analysis of a new ejector enhanced auto-cascade refrigeration cycle
Yan G, Chen JH, Yu JL
Energy Conversion and Management, 105, 509, 2015 |
| 8 |
Solar-assisted auto-cascade heat pump cycle with zeotropic mixture R32/R290 for small water heaters
Lv XL, Yan G, Yu JL
Renewable Energy, 76, 167, 2015 |
| 9 |
A thermodynamic analysis of an auto-cascade heat pump cycle for heating application in cold regions
Zhao L, Zheng N, Deng S
Energy and Buildings, 82, 621, 2014 |
| 10 |
Numerical investigations on the performance of a single-stage auto-cascade refrigerator operating with two vapor-liquid separators and environmentally benign binary refrigerants
Wang Q, Li DH, Wang JP, Sun TF, Han XH, Chen GM
Applied Energy, 112, 949, 2013 |
