| Effect of working fluids on organic Rankine cycle for waste heat recovery BT Liu, KH Chien, CC Wang Energy 29 (8), 1207-1217, 2004 | 1132 | 2004 |
| Enhancement of thermal conductivity with carbon nanotube for nanofluids MS Liu, MCC Lin, IT Huang, CC Wang International communications in heat and mass transfer 32 (9), 1202-1210, 2005 | 856 | 2005 |
| A generalized heat transfer correlation for Iouver fin geometry YJ Chang, CC Wang International Journal of heat and mass transfer 40 (3), 533-544, 1997 | 750 | 1997 |
| Enhancement of thermal conductivity with Cu for nanofluids using chemical reduction method MS Liu, MCC Lin, CY Tsai, CC Wang International Journal of Heat and Mass Transfer 49 (17-18), 3028-3033, 2006 | 647 | 2006 |
| Heat transfer and friction characteristics of plain fin-and-tube heat exchangers, part II: Correlation CC Wang, KY Chi, CJ Chang International Journal of Heat and mass transfer 43 (15), 2693-2700, 2000 | 630 | 2000 |
| Heat transfer and friction characteristics of plain fin-and-tube heat exchangers, part I: new experimental data CC Wang, KY Chi International Journal of Heat and Mass Transfer 43 (15), 2681-2691, 2000 | 426 | 2000 |
| Heat transfer and friction correlation for compact louvered fin-and-tube heat exchangers CC Wang, CJ Lee, CT Chang, SP Lin International journal of heat and mass transfer 42 (11), 1945-1956, 1999 | 425 | 1999 |
| Enhancement of thermal conductivity with CuO for nanofluids MS Liu, MCC Lin, IT Huang, CC Wang Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2006 | 404 | 2006 |
| Heat transfer and friction characteristics of typical wavy fin-and-tube heat exchangers CC WangW L, CT Chang Experimental thermal and fluid science 14 (2), 174-186, 1997 | 383 | 1997 |
| Sensible heat and friction characteristics of plate fin-and-tube heat exchangers having plane fins CC Wang, YJ Chang, YC Hsieh, YT Lin International Journal of Refrigeration 19 (4), 223-230, 1996 | 366 | 1996 |
| Performance of plate finned tube heat exchangers under dehumidifying conditions CC Wang, Y Hsieh, Y Lin | 288 | 1997 |
| Enhancements of thermal conductivities with Cu, CuO, and carbon nanotube nanofluids and application of MWNT/water nanofluid on a water chiller system MS Liu, MCC Lin, CC Wang Nanoscale research letters 6, 1-13, 2011 | 287 | 2011 |
| A comparative study of compact enhanced fin-and-tube heat exchangers CC Wang, WS Lee, WJ Sheu International Journal of Heat and Mass Transfer 44 (18), 3565-3573, 2001 | 274 | 2001 |
| Two-phase pressure drop of air–water and R-410A in small horizontal tubes Y Chen, KS Yang, YJ Chang, CC Wang International journal of multiphase flow 27 (7), 1293-1299, 2001 | 242 | 2001 |
| Role of hybrid-nanofluid in heat transfer enhancement–A review M Muneeshwaran, G Srinivasan, P Muthukumar, CC Wang International Communications in Heat and Mass Transfer 125, 105341, 2021 | 240 | 2021 |
| Review of defrosting methods M Amer, CC Wang Renewable and Sustainable Energy Reviews 73, 53-74, 2017 | 230 | 2017 |
| A generalized friction correlation for louver fin geometry YJ Chang, KC Hsu, YT Lin, CC Wang International journal of heat and mass transfer 43 (12), 2237-2243, 2000 | 228 | 2000 |
| Heat and mass transfer for plate fin-and-tube heat exchangers, with and without hydrophilic coating CC Wang, CT Chang International Journal of Heat and Mass Transfer 41 (20), 3109-3120, 1998 | 218 | 1998 |
| A novel design of pulsating heat pipe with fewer turns applicable to all orientations KH Chien, YT Lin, YR Chen, KS Yang, CC Wang International journal of heat and mass transfer 55 (21-22), 5722-5728, 2012 | 215 | 2012 |
| Empirical correlations for heat transfer and flow friction characteristics of herringbone wavy fin-and-tube heat exchangers CC Wang, YM Hwang, YT Lin International Journal of Refrigeration 25 (5), 673-680, 2002 | 204 | 2002 |
