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.

References

Benjamin, T. B. 1957 J. Fluid Mech. 2, 554.

Culkin, J. B. 1979 Preliminary experiments on rivulet instabilities. M.S. thesis, Johns Hopkins University, Baltimore, MD.

Davis, S. H. 1980 J. Fluid Mech. 98, 225.

Davis, S. H. & Homsy, G. M. 1980 J. Fluid Mech. 98, 527.

Dussan V., E. B. 1976 J. Fluid Mech. 77, 665.

Dussan V., E. B. 1979 Ann. Rev. Fluid Mech. 11, 371.

Dussan V., E. B. & Davis, S. H. 1974 J. Fluid Mech. 65, 71.

Greenspan, H. P. 1978 J. Fluid Mech. 84, 125.

Hocking, L. M. 1977 J. Fluid Mech. 79, 209.

Huh, C. & Mason, S. G. 1977 J. Fluid Mech. 81, 401.

Kern, J. 1969 Verfahrenstechnik 3, 425.

Kern, J. 1971 Verfahrenstechnik 5, 289.

Rayleigh, Lord 1879 Proc. Roy. Soc. A 10, 4.

Rothrock, D. A. 1968 A study of flows down the underside of an inclined plane. Ph.D. thesis, University of Cambridge.

Towell, G. D. & Rothfeld, L. B. 1966 A.I.Ch.E. J. 12, 972.

Yih, C.-S. 1963 Phys. Fluids 6, 321.

Crossref Citations

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

Culkin, J. B. and Davis, S. H. 1984. Meandering of water rivulets. AIChE Journal, Vol. 30, Issue. 2, p. 263.

Young, Gerald W. and Davis, Stephen H. 1987. Rivulet instabilities. Journal of Fluid Mechanics, Vol. 176, Issue. -1, p. 1.

Nakagawa, T. 1992. Rivulet meanders on a smooth hydrophobic surface. International Journal of Multiphase Flow, Vol. 18, Issue. 3, p. 455.

Mizumura, Kazumasa 1993. Meandering Water Rivulet. Journal of Hydraulic Engineering, Vol. 119, Issue. 11, p. 1205.

Young, Gerald W. 1994. Free Boundaries in Viscous Flows. Vol. 61, Issue. , p. 1.

Mertens, Keith Putkaradze, Vakhtang and Vorobieff, Peter 2004. Braiding patterns on an inclined plane. Nature, Vol. 430, Issue. 6996, p. 165.

Wilson, S. K. and Duffy, B. R. 2005. When is it energetically favorable for a rivulet of perfectly wetting fluid to split?. Physics of Fluids, Vol. 17, Issue. 7,

BIRNIR, B. MERTENS, K. PUTKARADZE, V. and VOROBIEFF, P. 2008. Morphology of a stream flowing down an inclined plane. Part 2. Meandering. Journal of Fluid Mechanics, Vol. 607, Issue. , p. 401.

Birnir, Björn Mertens, Keith Putkaradze, Vakhtang and Vorobieff, Peter 2008. Meandering Fluid Streams in the Presence of Flow-Rate Fluctuations. Physical Review Letters, Vol. 101, Issue. 11,

Chappell, J. Hutt, D.A. and Conway, P.P. 2008. Variation in the line stability of an inkjet printed optical waveguide-applicable material. p. 1267.

BENILOV, E. S. 2009. On the stability of shallow rivulets. Journal of Fluid Mechanics, Vol. 636, Issue. , p. 455.

Gambaryan-Roisman, Tatiana and Stephan, Peter 2009. Flow and Stability of Rivulets on Heated Surfaces With Topography. Journal of Heat Transfer, Vol. 131, Issue. 3,

BOSTWICK, J. B. and STEEN, P. H. 2010. Stability of constrained cylindrical interfaces and the torus lift of Plateau–Rayleigh. Journal of Fluid Mechanics, Vol. 647, Issue. , p. 201.

Beltrame, Philippe Knobloch, Edgar Hänggi, Peter and Thiele, Uwe 2011. Rayleigh and depinning instabilities of forced liquid ridges on heterogeneous substrates. Physical Review E, Vol. 83, Issue. 1,

Lye, Jonathan Kok Keung Neild, Adrian and Ng, Tuck Wah 2011. Strong upstream flow characteristics in the formation of rivulets. Physical Review E, Vol. 83, Issue. 2,

Sullivan, J. M. Paterson, C. Wilson, S. K. and Duffy, B. R. 2012. A thin rivulet or ridge subject to a uniform transverse shear stress at its free surface due to an external airflow. Physics of Fluids, Vol. 24, Issue. 8,

Paterson, C. Wilson, S.K. and Duffy, B.R. 2013. Pinning, de-pinning and re-pinning of a slowly varying rivulet. European Journal of Mechanics - B/Fluids, Vol. 41, Issue. , p. 94.

Herrada, M. A. Gañán-Calvo, A. M. and Montanero, J. M. 2013. Theoretical investigation of a technique to produce microbubbles by a microfluidicTjunction. Physical Review E, Vol. 88, Issue. 3,

Bostwick, J. B. and Steen, P. H. 2014. Dynamics of sessile drops. Part 1. Inviscid theory. Journal of Fluid Mechanics, Vol. 760, Issue. , p. 5.

Herrada, Miguel A. Mohamed, A.S. Montanero, José M. and Gañán-Calvo, A.M. 2015. Stability of a rivulet flowing in a microchannel. International Journal of Multiphase Flow, Vol. 69, Issue. , p. 1.

Download full list

Article contents

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

Abstract

Access options

References

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

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests