The unsteady process for thermocapillary droplet migration at large Reynolds and Marangoni numbers has been previously reported by identifying a nonconservative integral thermal flux across the surface in the steady thermocapillary droplet migration (Wu and Hu, 2013) [15]. Here we add a thermal source in the droplet to preserve the integral thermal flux across the surface as conservative, so that thermocapillary droplet migration at large Reynolds and Marangoni numbers can reach a quasi-steady process. Under assumptions of quasi-steady state and non-deformation of the droplet, we make an analytical result for the steady thermocapillary migration of droplet with the thermal source at large Reynolds and Marangoni numbers. The result shows that the thermocapillary droplet migration speed slowly increases with the increase of Marangoni number. (C) 2014 Elsevier Ltd. All rights reserved.

[http://dx.doi.org/10.1016/j.ijheatmasstransfer.2014.04.011]

We thank the National Science Foundation for partial support through the Grant No. 11172310 and the IMECH/SCCAS SHENTENG 1800/7000 research computing facilities for assisting in the computation.

The article was published as:
Wu ZB. Thermocapillary Migration Of A Droplet With A Thermal Source At Large Reynolds And Marangoni Numbers.International Journal Of Heat And Mass Transfer,2014,75:704-709.