| D. Burgreen, F.R. Nakache, Electrokinetic flow in ultrafine capillary slits, J. Phys. Chem. 68 (1964) 1084-1091. CrossRef | |
| C.L. Rice, R. Whitehead, Electrokinetic flow in a narrow cylindrical capillary, J. Phys. Chem. 69 (1965) 4017-4024. CrossRef | |
| S. Levine, J.R. Marriott, G. Neale, N. Epstein, Theory of electrokinetic flow in fine cylindrical capillaries at high zeta-potentials, J. Colloid Interface Sci. 52 (1975) 136-149. | |
| R.J. Yang, L.M. Fu, Y.C. Lin, Electroosmotic flow in microchannels, J. Colloid Interface Sci. 239 (2001) 98-105. | |
| R.J. Yang, L.M. Fu, C.C. Hwang, Electroosmotic entry flow in a microchannel, J. Colloid Interface Sci. 244 (2001) 173-179. | |
| L. Ren, D. Li, Electroosmotic flow in hetrogeneous microchannels, J. Colloid Interface Sci. 243 (2001) 255-261. | |
| N.A. Patankar, H.H. Hu, Numerical simulation of electroosmotic flow, Anal. Chem. 70 (1998) 1870-1881. CrossRef | |
| P. Dutta, A. Beskok, T.C. Warburton, Electroosmotic flow control in complex microgeometries, J. Microelectromech. Systems 11 (2002) 36-44. | |
| C.Y. Yang, D. Li, J.H. Masliyah, Modeling forced liquid convection in rectangular microchannels with electrokinetic effects, Int. J. Heat Mass Transfer 41 (1998) 4229-4249. CrossRef | |
| D. Maynes, B.W. Webb, Fully developed electro-osmotic heat transfer in microchannels, Int. J. Heat Mass Transfer 46 (2003) 1359-1369. 643 CrossRef | |
| D. Maynes, B.W. Webb, Fully developed thermal transport in combined pressure and electroosmotically driven flow in microchannels, J. Heat Transfer 125 (2003) 889-895. CrossRef | |
| D. Maynes, B.W. Webb, The effect of viscous dissipation in thermally fully developed electroosmotic heat transfer in microchannels, Int. J. Heat Mass Transfer 47 (2004) 987-999. CrossRef | |
| X.Y. Chen, K.C. Toh, C. Yang, J.C. Chai, Numerical computation of hydrodynamically and thermally developing liquid flow in microchannels with electrokinetic effects, J. Heat Transfer 126 (2004) 70-75. 652 CrossRef | |
| S. Chakraborty, Analytical solutions of Nusselt number for thermally fully developed flow in microtubes under a combined action of electroosmotic forces and imposed pressure gradients, Int. J. Heat Mass Transfer 49 (2006) 810-813. CrossRef | |
| A.Q. Zade, M.T. Manzari, S.K. Hannani, An analytical solution for thermally fully developed combined pressure-electroosmotically driven flow in microchannels, Int. J. Heat Mass Transfer 50 (2007) 1087-1096. CrossRef | |
| Z. Yang, X.F. Peng, B.X. Wang, Fully developed electroosmotically and hydrodynamically induced convection between two parallel plates, Numer. Heat Transfer Part - A 50 (2006) 905-926. CrossRef | |
| A. Jain, M.K. Jensen, Analytical modeling of electrokinetic effects on flow and heat transfer in microchannels, Int. J. Heat Mass Transfer 50 (2007) 5161- 5167. CrossRef | |
| A. Mukhopadhyay, S. Bannerjee, C. Gupta, Fully developed hydrodynamic and thermal transport in combined pressure and electrokinetically driven flow in a microchannel with asymmetric boundary conditions, Int. J. Heat and Mass Transfer 52 (2009) 2145-2154 CrossRef | |
| A. Brask, G. Goranovic, H. Bruus, Electroosmotic pumping of nonconducting liquids by viscous drag from a secondary conducting liquid, in: 2003 Nanotechnology Conference and Trade Show - Nanotech 2003, 2003, pp. 190-193. | |
| Y. Gao, T.N. Wong, C. Yang, K.T. Ooi, Two-fluid electroosmotic flow in microchannels, J. Colloid Interface Sci. 284 (2005) 306-314. | |
| Y. Gao, C. Wang, T.N. Wong, C. Yang, N.T. Nguyen, K.T. Ooi, Electro-osmotic control of the interface position of two-liquid flow through a microchannel, J. Micromech. Microeng. 17 (2007) 358-366. CrossRef | |
| G.D. Ngoma, F. Erchiqui, Pressure gradient and electroosmotic effects on two immiscible fluids in a microchannel between two parallel plates, J. Micromech. Microeng. 16 (2006) 83-91. CrossRef | |
| Y. Gao, T.N. Wong, J.C. Chai, C. Yang, K.T. Ooi, Numerical simulation of two-fluid electroosmotic flow in microchannels, Int. J. Heat Mass Transfer 48 (2005) 5103-5111. CrossRef | |
| P.J. Stiles, D.F. Fletcher, Hydrodynamic control of the interface between two liquids flowing through a horizontal or vertical microchannel, Lab Chip 4 (2004) 121-124. CrossRef | |
| S. Chakraborty, A. Garai, Micro-scale thermo-fluidic transport in two immiscible liquid layers subject to combined electroosmotic and pressure-driven transport, Int. J. Heat Mass Transfer 52 (2009) 2660-2666. CrossRef | |
| L. Haiwang, T.N. Wong, N. Ngyuen, Time-dependent model of mixed electroosmotic/pressure-driven three immiscible fluids in a rectangular microchannel, Int. J. Heat mass Transfer 53 (2010) 772-785. CrossRef |
Fully Developed Hydrodynamic and Thermal Transport of Combined Pressure and Electrokinetically-driven Flow in a Microchannel With Three Immiscible Fluids
Santanu PramanikRelated information
1 Department of Mechanical Engineering, Jadavpur University Kolkata, 700 032 India
, Achintya MukhopadhyayRelated information1 Department of Mechanical Engineering, Jadavpur University Kolkata, 700 032 India
, Swarnendu SenRelated information1 Department of Mechanical Engineering, Jadavpur University Kolkata, 700 032 India