Recent Red Lotus Project Presentations

Driving flow through microfluidic channels

Hiroyuki Miyoshi (Imperial College London) presents new analytical solutions for flow in ridged microchannels with partial wetting, generalizing those of Philip (1972).

Based on the journal article:

Miyoshi, H., Rodriguez-Broadbent, H., Curran, A. et al. Longitudinal flow in superhydrophobic channels with partially invaded groovesJ Eng Math 137, 3 (2022).

Flow through microfluidic channels with partial wetting

Driving flow through microfluidic channels

Hiroyuki Miyoshi (Imperial College London)

Hiroyuki Miyoshi (Imperial College London) presents new analytical solutions for flow in ridged microchannels with partial wetting, generalizing those of Philip (1972).

Based on the journal article:

Miyoshi, H., Rodriguez-Broadbent, H., Curran, A. et al. Longitudinal flow in superhydrophobic channels with partially invaded groovesJ Eng Math 137, 3 (2022).

An analytic study of flow over liquid-infused surfaces

Shear-driven failure of liquid-infused surfaces

Henry Rodriguez-Broadbent (Imperial College London)

Henry Rodriguez-Broadbent (Imperial College London) presents new analytical solutions for two-phase flow in a liquid-infused surface, using these to investigate shear-driven failure. 

Presentations by External Speakers

Modelling the interaction between flows and complex surfaces

Fluid Dynamics Seminar, Department of Mathematics, Imperial College London. Prof. Servin Bagheri, KTH, December 11, 2020

Modelling the interaction between flows and complex surfaces

Modelling the interaction between flows and complex surfaces

Prof. Servin Bagheri (KTH)

Fluid Dynamics Seminar, Department of Mathematics, Imperial College London. Prof. Servin Bagheri, KTH, December 11, 2020

Free Surface Nanoflows

Free Surface Nanoflows

Dr James Sprittles (University of Warwick)

Fluid Dynamics Seminar, Department of Mathematics, Imperial College London. Dr James Sprittles, Mathematics Institute, University of Warwick. November 6, 2020.