| 1 |
Boundary effects on creeping motion of an aerosol particle in a non-concentric pore
Lu SY, Lee CT
Chemical Engineering Science, 56(17), 5207, 2001 |
| 2 |
Drag and fall velocity of a spherical particle in generalized Newtonian and viscoplastic fluids
Dolejs V, Dolecek P, Siska B
Chemical Engineering and Processing, 37(2), 189, 1998 |
| 3 |
Pressure-driven motion of drops and bubbles through cylindrical capillaries : Effect of buoyancy
Borhan A, Pallinti J
Industrial & Engineering Chemistry Research, 37(9), 3748, 1998 |
| 4 |
Finite-Element Analysis of Taylor Flow
Edvinsson RK, Irandoust S
AIChE Journal, 42(7), 1815, 1996 |
| 5 |
Buoyancy-driven motion of drops and bubbles in a periodically constricted capillary
Hemmat M, Borhan A
Chemical Engineering Communications, 150, 363, 1996 |
| 6 |
The slow motion of a spherical particle in a Carreau fluid
Rodrigue D, De Kee D, Fong CFCM
Chemical Engineering Communications, 154, 203, 1996 |
| 7 |
Sedimentation of a sphere near a plane wall: Weak non-Newtonian and inertial effects
Becker LE, McKinley GH, Stone HA
Journal of Non-Newtonian Fluid Mechanics, 63(2-3), 201, 1996 |
| 8 |
Slow Motion of an Arbitrary Axisymmetrical Body Along Its Axis of Revolution and Normal to a Plane Surface
Keh HJ, Tseng CH
International Journal of Multiphase Flow, 20(1), 185, 1994 |
| 9 |
Particle Trajectories in Field-Flow Fractionation and Splitt Fractionation Channels
Williams PS
Separation Science and Technology, 29(1), 11, 1994 |
| 10 |
Separation of Cells and Cell-Sized Particles by Continuous Splitt Fractionation Using Hydrodynamic Lift Forces
Zhang J, Williams PS, Myers MN, Giddings JC
Separation Science and Technology, 29(18), 2493, 1994 |
