 |
Morning, Wednesday 27 July 2005
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Micro and Bio Flow II
(Chair: L.-S. Luo)
Venue: N002, PolyU
Campus |
|
0900-0933 |
Numerical simulation of chaotically stirred micro fluidic systems
A. Beskok |
|
0933-0955 |
Simulating two- and three-dimensional microflows by a lattice
Boltzmann method with kinetic boundary conditions
G. H. Tang, W. Q. Tao
and Y. L. He |
|
0955-1017 |
A
lattice Boltzmann method for modeling the dynamic pole-to-pole
oscillations of min proteins for determining the position of the
midcell division plane
W. Ngamsaad, W. Triampo,
P. Kanthang, I. M. Tang,
N. Nuttawut and C. Modjung |
|
1017-1040 |
The
lattice Boltzmann method for the thermocapillary of melt in a
cavity in microgravity
R. Du and B. Shi |
|
1040-1100 |
Coffee/Tea Break |
|
CFD III (Chair: S. Girimaji)
Venue: N002, PolyU
Campus |
|
1100-1125 |
Applying the lattice Boltzmann technique to biofluids: a novel
approach to simulate blood coagulation
J. Bernsdorf, S. E.
Harrison, S. M. Smith, P. V. Lawford and D. R. Hose |
|
1125-1150 |
LBM
simulation of wake interactions for cylinder array in a cross flow
Y. Liu and R. M. C. So |
|
1150-1215 |
A
lattice Boltzmann model for one-step aeroacoustics simulation
X. M. Li, R. M. C. So
and R. C. K. Leung |
|
1215-1240 |
Wind-driven, double-gyre, ocean circulation in a reduced gravity,
2.5-layer, lattice Boltzmann model
L. H. Zhong, S. Feng,
D. Luo and S. Gao |
|
1240-1400 |
Lunch |
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