Moving contact lines and rivulet instabilities. Part 2. Long waves on flat rivulets

Ralph H. Weiland; Stephen H. Davis

doi:10.1017/S0022112081001778

Abstract

A rivulet is a narrow stream of liquid located on a solid surface and sharing a curved interface with the surrounding gas. Long-wave instabilities are investigated for flat rivulets on a vertical wall. Three cases of contact-line conditions are investigated: (i) fixed contact lines, (ii) moving contact lines having fixed contact angles and (iii) moving contact lines whose contact angles vary smoothly with contact-line speeds. For case (i), the straight, unidirectional rivulet is stable below a critical Reynolds number. For case (ii), the rivulet is unconditionally unstable. For case (iii), the variation, G1 ≡ [dα/dUUCL = 0, in contact angle α with contact-line speed UCL stabilizes the rivulet and if G1 is large enough can completely stabilize the flow. The analysis lends support to the idea that contact-angle steepening with contact-line motion is a purely dissipative process.

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Moving contact lines and rivulet instabilities. Part 2. Long waves on flat rivulets

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Moving contact lines and rivulet instabilities. Part 2. Long waves on flat rivulets

Abstract

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