| 1 |
Investigating the combined effect of square microgrooves and CNT coating on condensation heat transfer
Kumar GU, Krishnan DV, Suresh S, Thansekhar MR, Prasanna RV, Jubal M
Applied Surface Science, 469, 50, 2019 |
| 2 |
A comprehensive understanding of enhanced condensation heat transfer using phase separation concept
Xie J, Xu JH, Liang C, She QT, Li MJ
Energy, 172, 661, 2019 |
| 3 |
Flow condensing heat transfer of R410A, R22, and R32 inside a micro-fin tube
Pham QV, Choi KI, Oh JT, Cho H
Experimental Heat Transfer, 32(2), 102, 2019 |
| 4 |
Condensation heat transfer and pressure drop characteristics of R-134a inside the flattened tubes at high mass flux and different saturation temperature
Solanki AK, Kumar R
Experimental Heat Transfer, 32(1), 69, 2019 |
| 5 |
Dropwise condensation heat transfer on superhydrophilic-hydrophobic network hybrid surface
Ji XB, Zhou DD, Dai C, Xu JL
International Journal of Heat and Mass Transfer, 132, 52, 2019 |
| 6 |
Experimental investigation on condensation heat transfer and pressure drop of a low GWP refrigerant R-1233zd(E) in a plate heat exchanger
Kwon OJ, Shon B, Kang YT
International Journal of Heat and Mass Transfer, 131, 1009, 2019 |
| 7 |
Enhancement of condensation heat transfer in the presence of non-condensable gas using steam jet method
Ji DY, Kim D, Lee KY
International Journal of Heat and Mass Transfer, 130, 603, 2019 |
| 8 |
Numerical study on condensation heat transfer and pressure drop characteristics of methane upward flow in a spiral pipe under sloshing condition
Li SL, Jiang YQ, Cai WH, Zhang HC, Li FZ
International Journal of Heat and Mass Transfer, 129, 310, 2019 |
| 9 |
Direct numerical simulations of droplet condensation
Orazzo A, Tanguy S
International Journal of Heat and Mass Transfer, 129, 432, 2019 |
| 10 |
Electrostatic-induced coalescing-jumping droplets on nanostructured superhydrophobic surfaces
Traipattanakul B, Tso CY, Chao CYH
International Journal of Heat and Mass Transfer, 128, 550, 2019 |
