https://doi.org/10.1140/epje/i2014-14120-4
Regular Article
Stability analysis of a thermocapillary spreading film with slip-model
Department of Chemical Engineering, Indian Institute of Technology Kanpur, 208016, UP, India
* e-mail: naveent@iitk.ac.in
Received:
30
July
2014
Revised:
27
September
2014
Accepted:
6
November
2014
Published online:
28
November
2014
Thin liquid films spreading on a solid substrate due to thermocapillary stresses are susceptible to rivulet instability at the advancing solid-liquid-vapor contact line. The unstable front is related to the presence of a capillary ridge at the contact line. In this work, the dynamics and stability of thermocapillary-driven films are analyzed using a detailed slip-model to alleviate the stress singularity at the moving contact line. The slip-model is well suited to model partially wetting fluids due to the possibility of defining the contact angle explicitly. The effect of motion of the contact line on the dynamic contact angle and subsequently on the dynamics and stability of the film is explored. The apparent contact angle is a result of the static contact angle and motion of the contact line. It is shown that one can obtain exactly the same base profile with and without taking into account the effect of motion on the contact angle with suitable change of parameters but the linear stability of the two profiles is different. Further the transient growth is found to be somewhat different but small for both configurations. Analysis of the -pseudospectra indicates a highly non-normal system for the case of dynamic contact angle.
Key words: Soft Matter: Interfacial Phenomena and Nanostructured Surfaces
© EDP Sciences, SIF, Springer-Verlag Berlin Heidelberg, 2014