Ryan Shaw scite author profile

Instability occurs in the electrokinetic flow of fluids with conductivity and/or permittivity gradients if the applied electric field is beyond a critical value. Understanding such an electrokinetic instability is significant for both improved transport (via the suppressed instability) and enhanced mixing (via the promoted instability) of liquid samples in microfluidic applications. This work presents the first study of Joule heating effects on electrokinetic microchannel flows with conductivity gradients using a combined experimental and numerical method. The experimentally observed flow patterns and measured critical electric fields under Joule heating effects to different extents are reasonably predicted by a depth‐averaged numerical model. It is found that Joule heating increases the critical electric field for the onset of electrokinetic instability because the induced fluid temperature rise and in turn the fluid property change (primarily the decreased permittivity) lead to a smaller electric Rayleigh number.

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Start‐up transients in a pneumatic foam

Shaw

Evans

Stevenson

2011

Asia-Pacific J Chem Eng

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In the current work, transient features of initiation in a gas-liquid pneumatic foam are investigated by measuring the evolution of volumetric liquid fraction as a function of height within the column. The addition of wash water to a flotation froth is only effective when the foam liquid fraction has reached a steady state. This makes start-up transients in pneumatic foam worthy of study. For the conditions adopted in the experiments, an approximately steady state was achieved after typically 500s, but there was significant fluctuation in liquid fraction after this time. In general, three possible regimes in the start-up transient (induction, growth and evolution) have been identified and a tentative mathematical model has been described for the last two. However, because it has been demonstrated that the method of obtaining bubble size distributions by analysing images taken through the column wall is deficient, no comparison of these models with the data has been attempted. 

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Dependency of liquid overflow rate upon humidity of a pneumatic foam

Shaw

Evans

Stevenson

2010

International Journal of Mineral Processing

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Ryan Shaw

Effect of humidity on dynamic foam stability

A simple numerical solution to the Ward–Tordai equation for the adsorption of non-ionic surfactants

Joule heating effects on electrokinetic flows with conductivity gradients

Start‐up transients in a pneumatic foam

Dependency of liquid overflow rate upon humidity of a pneumatic foam

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