B.V. Derjaguin, and Z.M. Zorin, "Optical Study of the Absorption and Surface Condensation of Vapors in the Vicinity of Saturation on a Smooth Surface," Proc.2nd International Congress on Surface Activity (London), 2, (1957), 145-152. | |
X. Xu, and V.P. Carey, "Film Evaporation from a Microgrooved Surface: An Approximate Heat Transfer Model and its Comparison with Experimental Data," AIAA Journal of Thermophysics, 4, (1990), 512-520. | |
J.M. Ha, and G.P. Peterson, "The Interline Heat Transfer of Evaporating Thin Film Along a Micro Grooved Surface," ASME Journal of Heat Transfer, 118, (1996), 747-755. CrossRef | |
K. Park, K.J. Noh, and K.S. Lee, "Transport Phenomena in the Thin Film Region of a Micro Channel," International Journal of Heat and Mass Transfer, 46, (2003), 2381-2388. CrossRef | |
S. Das Gupta, I.Y. Kim, and P.C. Wayner, "Use of Kelvin-Clapeyron Equation to Model an Evaporating Curved Microfilm," J. Heat Transfer, Trans. ASME, 116, (1994), 1007-1015. CrossRef | |
J.P. Longtin, B. Badran, and F.M. Gerner, "A One Dimensional Model of a Micro Heat Pipe During Steady State Operation," ASME Journal of Heat Transfer, 116, (1994), 709-715. CrossRef | |
V. Sartre, M. Zaghdoudi, and M. Lallemand, "Effect of Interfacial Phenomena on Evaporative Heat Transfer in Micro Heat Pipes," International Journal of Thermal Sciences, 39, (2000), 498-504. CrossRef | |
W. Qu, T. Ma, J. Miao, and J. Wang, "Effects of Radius and Heat Transfer on the Profile of Evaporating Thin Liquid Film and Meniscus in Capillary Tubes," International Journal of Heat and Mass Transfer, 45, (2002), 1879-1887. CrossRef | |
L. Biswal, S. K. Som and S. Chakraborty, "Thin film evaporation in microchannels with interfacial slip" Microfluid Nanofluid (2011) 10:155-163 CrossRef | |
H.B. Ma, G.P. Peterson, Temperature variation and heat transfer in triangular grooves with an evaporating film, J. Thermophys. Heat Transfer 11 (1997) 90-97. CrossRef | |
K. Watanabe, Yanuar, and H. Mizunuma, Slip of Newtonian Fluids at Slid Boundary, JSME International Journal Series B, 41, 525-529 (1998). CrossRef | |
K. Watanabe, Yanuar, and H. Udagawa, Drag Reduction of Newtonian Fluid in a Circular Pipe With a Highly Water-Repellant Wall, J. of Fluid Mechanics, 381, 225-238 (1999). CrossRef | |
E. Ruckenstein, and P. Rajora, On the No -Slip Boundary Condition of Hydrodynamics, J. of Colloid and Interface Science, 96, 488-491 (1983). | |
M. Mooney, Explicit formulas for slip and fluidity. Journal of Rheology, 2(2), 210-222 (1931). CrossRef | |
I. J. Rao, and K. R. Rajagopal, The effect of the slip condition on the flow of fluids in a channel, Acta Mech., 135(3), 113-126 (1999). CrossRef | |
A. R. A. Khaled, and K. Vafai, The effect of slip condition on Stokes and Couette flows due to an oscillating wall: exact solutions, Int. J. Non-Linear Mech, 39(5), 795-804 (2004). CrossRef | |
Tretheway and Meinhart, "A generating mechanism for apparent fluid slip in hydrophobic microchannels" Physics of Fluids (2004) Vol 16: 5-14. | |
CLMH Navier. M'emoire sur les lois du mouvement des fluides. Mem. Acad. R. Sci. Paris.,6:389-416, 1823. | |
Y. Zhu and S. Granick, "Limits of the hydrodynamic no-slip boundary condition" Physics Reviewe Letters (2002) Vol 88: 10-17. | |
Choi CH, Johan K, Westin A, Breuer KS, "Apparent slip flows in hydrophilic and hydrophobic microchannels" Physics of Fluids (2003) 15:2897-2902 CrossRef | |
Wang H, Garimella SV, Murthy JY, "Characteristics of an evaporating thin film in a microchannel" International Journal of Heat Mass Transfer (2007) 50:3933-3942 CrossRef |
Investigation of the effect of fluid slip on heat transfer in the thin-film region in a micro-channel
Rama GorlaRelated information
1 Department of Mechanical Engineering, Cleveland State University Cleveland, Ohio 44115 USA
, Dhruv SharmaRelated information1 Department of Mechanical Engineering, Cleveland State University Cleveland, Ohio 44115 USA