Brian Duffy scite author profile

We report the results of physical experiments that demonstrate the strong influence of the thermal conductivity of the substrate on the evaporation of a pinned droplet. We show that this behaviour can be captured by a mathematical model including the variation of the saturation concentration with temperature, and hence coupling the problems for the vapour concentration in the atmosphere and the temperature in the liquid and the substrate. Furthermore, we show that including two ad hoc improvements to the model, namely a Newton's law of cooling on the unwetted surface of the substrate and the buoyancy of water vapour in the atmosphere, give excellent quantitative agreement for all of the combinations of liquid and substrate considered

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On the lifetimes of evaporating droplets

Stauber¹,

Wilson²,

Duffy³

et al. 2014

J. Fluid Mech.

192

202

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The complete description of the lifetime of a droplet on a solid substrate evaporating in a 'stick-slide' mode is obtained. The unexpectedly subtle relationship between the lifetime of such a droplet and the lifetimes of initially identical droplets evaporating in the extreme modes (namely the constant contact radius and constant contact angle modes) is described and summarised in an appropriate master diagram. In particular, it is shown that the lifetime of a droplet is not, in general, constrained by the lifetimes of the extreme modes.

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The Jacobi elliptic-function method for finding periodic-wave solutions to nonlinear evolution equations

2002

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Brian Duffy

Anthropomorphism and the social robot

An automated tanh-function method for finding solitary wave solutions to non-linear evolution equations

The strong influence of substrate conductivity on droplet evaporation

On the lifetimes of evaporating droplets

The Jacobi elliptic-function method for finding periodic-wave solutions to nonlinear evolution equations

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