Heat transfer model for evaporation in microchannels. Part I: presentation of the model JR Thome, V Dupont, AM Jacobi International Journal of Heat and Mass Transfer 47 (14-16), 3375-3385, 2004 | 814 | 2004 |
Fluid flow and heat transfer at micro-and meso-scales with application to heat exchanger design SS Mehendale, AM Jacobi, RK Shah | 747 | 2000 |
Heat transfer surface enhancement through the use of longitudinal vortices: a review of recent progress AM Jacobi, RK Shah Experimental Thermal and Fluid Science 11 (3), 295-309, 1995 | 702 | 1995 |
An experimental study of flow and heat transfer in sinusoidal wavy passages TA Rush, TA Newell, AM Jacobi International journal of heat and mass transfer 42 (9), 1541-1553, 1999 | 474 | 1999 |
Falling-film evaporation on horizontal tubes—a critical review G Ribatski, AM Jacobi International journal of refrigeration 28 (5), 635-653, 2005 | 471 | 2005 |
A review on polymer heat exchangers for HVAC&R applications C T'Joen, Y Park, Q Wang, A Sommers, X Han, A Jacobi International journal of refrigeration 32 (5), 763-779, 2009 | 391 | 2009 |
Retention forces and contact angles for critical liquid drops on non-horizontal surfaces AI ElSherbini, AM Jacobi Journal of colloid and interface science 299 (2), 841-849, 2006 | 355 | 2006 |
Ceramics and ceramic matrix composites for heat exchangers in advanced thermal systems—A review A Sommers, Q Wang, X Han, C T'Joen, Y Park, A Jacobi Applied Thermal Engineering 30 (11-12), 1277-1291, 2010 | 339 | 2010 |
The intertube falling film: Part 1—Flow characteristics, mode transitions, and hysteresis X Hu, AM Jacobi | 327 | 1996 |
A review of metal foam and metal matrix composites for heat exchangers and heat sinks XH Han, Q Wang, YG Park, C T’Joen, A Sommers, A Jacobi Heat Transfer Engineering 33 (12), 991-1009, 2012 | 323 | 2012 |
Heat transfer enhancement by winglet-type vortex generator arrays in compact plain-fin-and-tube heat exchangers A Joardar, AM Jacobi International journal of refrigeration 31 (1), 87-97, 2008 | 305 | 2008 |
Heat transfer model for evaporation in microchannels. Part II: comparison with the database V Dupont, JR Thome, AM Jacobi International Journal of Heat and Mass Transfer 47 (14-16), 3387-3401, 2004 | 293 | 2004 |
Flow-boiling heat transfer of R-134a-based nanofluids in a horizontal tube K Henderson, YG Park, L Liu, AM Jacobi International Journal of Heat and Mass Transfer 53 (5-6), 944-951, 2010 | 281 | 2010 |
Heat transfer model for evaporation of elongated bubble flows in microchannels AM Jacobi, JR Thome J. Heat Transfer 124 (6), 1131-1136, 2002 | 280 | 2002 |
Heat transfer enhancement by delta-wing vortex generators on a flat plate: vortex interactions with the boundary layer MC Gentry, AM Jacobi Experimental Thermal and Fluid Science 14 (3), 231-242, 1997 | 271 | 1997 |
Ultrasonication effects on thermal and rheological properties of carbon nanotube suspensions B Ruan, AM Jacobi Nanoscale research letters 7, 1-14, 2012 | 255 | 2012 |
Liquid drops on vertical and inclined surfaces: I. An experimental study of drop geometry AI ElSherbini, AM Jacobi Journal of colloid and interface science 273 (2), 556-565, 2004 | 238 | 2004 |
Frost, defrost, and refrost and its impact on the air-side thermal-hydraulic performance of louvered-fin, flat-tube heat exchangers Y Xia, Y Zhong, PS Hrnjak, AM Jacobi International Journal of Refrigeration 29 (7), 1066-1079, 2006 | 235 | 2006 |
The intertube falling film: Part 2—Mode effects on sensible heat transfer to a falling liquid film X Hu, AM Jacobi | 195 | 1996 |
Heat transfer enhancement by delta-wing-generated tip vortices in flat-plate and developing channel flows MC Gentry, AM Jacobi J. Heat Transfer 124 (6), 1158-1168, 2002 | 188 | 2002 |