91 |
Experimental investigation of a counter-flow heat pump driven liquid desiccant dehumidification system Liu XH, Xie Y, Zhang T, Chen LL, Cong L Energy and Buildings, 179, 223, 2018 |
92 |
Experimental testing on contaminant and moisture removal performance of silica gel desiccant wheel Ge TS, Qi D, Dai YJ, Wang RZ Energy and Buildings, 176, 71, 2018 |
93 |
Experimental performance analysis and evaluation of a novel frost-free air source heat pump system Wang ZH, Wang FH, Ma ZJ, Song MJ, Fan WK Energy and Buildings, 175, 69, 2018 |
94 |
Performance evaluation of a high-influx, bubble dehumidifier Kasamsetty S, Raphael B Energy and Buildings, 173, 291, 2018 |
95 |
Thermodynamic analysis of a hybrid membrane liquid desiccant dehumidification and dew point evaporative cooling system Lin J, Huang SM, Wang RZ, Chua KJ Energy Conversion and Management, 156, 440, 2018 |
96 |
New concept of desiccant-enhanced heat pump Tu YD, Wang RZ, Ge TS Energy Conversion and Management, 156, 568, 2018 |
97 |
Feasibility of a hybrid photovoltaic/thermal and liquid desiccant system for deep dehumidification Su BS, Qu WJ, Han W, Jin HG Energy Conversion and Management, 163, 457, 2018 |
98 |
Thermodynamic balancing of the regeneration process in a novel liquid desiccant cooling/desalination system Ahmed MA, Qasem NAA, Zubair SM, Gandhidasan P, Bahaidarah HM Energy Conversion and Management, 176, 86, 2018 |
99 |
Desiccant-wheel optimization via response surface methodology and multi-objective genetic algorithm Zendehboudi A, Li XT Energy Conversion and Management, 174, 649, 2018 |
100 |
Regeneration of liquid desiccant for solar air-conditioning and desalination using hybrid solar still Modi KV, Shukla DL Energy Conversion and Management, 171, 1598, 2018 |