Red Lotus Project Minisymposium
“Micro and Nano Flows” Conference 2021 (MNF 21)
24-26 May 2021, Imperial College London
Red Lotus members Marc Hodes and Toby Kirk have organised a special session of talks at the 2021 conference “Micro and Nano Flows” taking place online from 24-26 May 2021.
Line-up
A two-part minisymposium organised by the Red Lotus project for May 24 features the following line-up:
Session 1A. Minisymposium: Transport Phenomena on Superhydrophobic Surfaces I
Chair: Dr Toby L. Kirk (University of Oxford)
10.30-10.50 Droplet self-propulsion on hemi-liquid and shaped liquid. (20)
G. McHale, G.G. Wells, R. Ledesma-Aguilar
10.50-11.10 Non-wetting droplets rolling down a gently inclined plane. (13)
O. Schnitzer, A. M. Davis, E. Yariv
11.10-11.30 Droplet mobility on nanohierarchical hydrophobic surfaces. (71)
J. Zhang, V. Singh, M. K. Tiwari
11.30-11.50 Effective slip for longitudinal flow over superhydrophobic surfaces with partially-filled grooves. (96)
D. G. Crowdy
11.50- 12.10 Rotation of a superhydrophobic cylinder in a viscous liquid. (90)
E. Yariv, M. Siegel
12.10-12.30 Giant slip flow enhanced by Marangoni stresses at superhydrophobc air-water interface. (67)
D. Song, B. Song, G. Pan, H. Hu, J. Rothestein, C-H. Choi
Session 2A. Minisymposium: Transport Phenomena on Superhydrophobic Surfaces II
Chair: Professor Marc Hodes (Tufts University)
14.00-15.20 Optothermally driven Marangoni flow on superhydrophobic surfaces. (24)
A Gao, H-J. Butt, W. Steffen, C. Schonecker
15.20-15.40 Flow and thermal resistances of superhydrophobic channels. (81)
S. D. Tomlinson, T. L. Kirk, D. T. Papageorgiou
15.40-16.00 Streamwise and transverse thermocapillary stress effects on heat transfer in a superhydrophobic microchannel. (69)
M. Mayer, G. Karamanis, T. L. Kirk, K. Remella, M. Hodes
16.00-16.20 Slip on surfactant-contaminated superhydrophobic gratings in laminer flows. (107)
F. Temprano-Coleto, S. M. Smith, F. J. Peaudecerf, J. R. Landel, F. Gibou, P. Luzzatto-Fegiz
16.20-16.40 A fast and accurate boundary integral method for superhydrophobic flow computations. (12)
K. Sugita, S. Jiang, M. Siegel