A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid

T.W. Driessen; R.J.M. Jeurissen; H.M.A. Wijshoff; A. Bos, van der; J.H. Snoeijer; D. Lohse

A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid

T.W. Driessen, R.J.M. Jeurissen, H.M.A. Wijshoff, A. Bos, van der, J.H. Snoeijer, D. Lohse

Fluids and Flows

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic

Abstract

Droplets with a well-controlled size and speed are required in many industrial and medical applications. In this work we study axisymmetric droplet formation from a piezo inkjet print head. The breakup of an axisymmetric viscous jet is considered in the lubrication approximation. The discretised equations are solved on a fixed equidistant one-dimensional Eulerian grid. The governing equations are implemented in a conservative second order accurate total variation diminishing (TVD) scheme, preventing the numerical diffusivity. Singularities that occur at pinchoff and coalescence are regularised by a small modification on the surface tension. The modification is of the order of the spatial step. This regularisation ensures that the solution of the presented numerical model converges to the exact solution of the breakup of a jet in the lubrication approximation. The results of the presented numerical model agree quantitatively with the analytical solution of the Rayleigh-Plateau instability, and with experimental results on the final stage of the Rayleigh-Plateau instability.

Original language	English
Title of host publication	Proceedings of the 64th Annual Division of Fluid Dynamics (DFD) Meeting, 20-22 November 2011, Baltimore, Maryland
Publication status	Published - 2011

Publication series

Name	Bulletin of the American Physical Society
Number	18
Volume	56
ISSN (Print)	0003-0503

Cite this

Driessen, T. W., Jeurissen, R. J. M., Wijshoff, H. M. A., Bos, van der, A., Snoeijer, J. H., & Lohse, D. (2011). A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid. In Proceedings of the 64th Annual Division of Fluid Dynamics (DFD) Meeting, 20-22 November 2011, Baltimore, Maryland Article G15.00001 (Bulletin of the American Physical Society; Vol. 56, No. 18).

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title = "A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid",

abstract = "Droplets with a well-controlled size and speed are required in many industrial and medical applications. In this work we study axisymmetric droplet formation from a piezo inkjet print head. The breakup of an axisymmetric viscous jet is considered in the lubrication approximation. The discretised equations are solved on a fixed equidistant one-dimensional Eulerian grid. The governing equations are implemented in a conservative second order accurate total variation diminishing (TVD) scheme, preventing the numerical diffusivity. Singularities that occur at pinchoff and coalescence are regularised by a small modification on the surface tension. The modification is of the order of the spatial step. This regularisation ensures that the solution of the presented numerical model converges to the exact solution of the breakup of a jet in the lubrication approximation. The results of the presented numerical model agree quantitatively with the analytical solution of the Rayleigh-Plateau instability, and with experimental results on the final stage of the Rayleigh-Plateau instability.",

author = "T.W. Driessen and R.J.M. Jeurissen and H.M.A. Wijshoff and {Bos, van der}, A. and J.H. Snoeijer and D. Lohse",

year = "2011",

language = "English",

series = "Bulletin of the American Physical Society",

number = "18",

booktitle = "Proceedings of the 64th Annual Division of Fluid Dynamics (DFD) Meeting, 20-22 November 2011, Baltimore, Maryland",

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Driessen, TW, Jeurissen, RJM, Wijshoff, HMA, Bos, van der, A, Snoeijer, JH & Lohse, D 2011, A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid. in Proceedings of the 64th Annual Division of Fluid Dynamics (DFD) Meeting, 20-22 November 2011, Baltimore, Maryland., G15.00001, Bulletin of the American Physical Society, no. 18, vol. 56.

A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid. / Driessen, T.W.; Jeurissen, R.J.M.; Wijshoff, H.M.A. et al.
Proceedings of the 64th Annual Division of Fluid Dynamics (DFD) Meeting, 20-22 November 2011, Baltimore, Maryland. 2011. G15.00001 (Bulletin of the American Physical Society; Vol. 56, No. 18).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic

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T1 - A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid

AU - Driessen, T.W.

AU - Jeurissen, R.J.M.

AU - Wijshoff, H.M.A.

AU - Bos, van der, A.

AU - Snoeijer, J.H.

AU - Lohse, D.

PY - 2011

Y1 - 2011

N2 - Droplets with a well-controlled size and speed are required in many industrial and medical applications. In this work we study axisymmetric droplet formation from a piezo inkjet print head. The breakup of an axisymmetric viscous jet is considered in the lubrication approximation. The discretised equations are solved on a fixed equidistant one-dimensional Eulerian grid. The governing equations are implemented in a conservative second order accurate total variation diminishing (TVD) scheme, preventing the numerical diffusivity. Singularities that occur at pinchoff and coalescence are regularised by a small modification on the surface tension. The modification is of the order of the spatial step. This regularisation ensures that the solution of the presented numerical model converges to the exact solution of the breakup of a jet in the lubrication approximation. The results of the presented numerical model agree quantitatively with the analytical solution of the Rayleigh-Plateau instability, and with experimental results on the final stage of the Rayleigh-Plateau instability.

AB - Droplets with a well-controlled size and speed are required in many industrial and medical applications. In this work we study axisymmetric droplet formation from a piezo inkjet print head. The breakup of an axisymmetric viscous jet is considered in the lubrication approximation. The discretised equations are solved on a fixed equidistant one-dimensional Eulerian grid. The governing equations are implemented in a conservative second order accurate total variation diminishing (TVD) scheme, preventing the numerical diffusivity. Singularities that occur at pinchoff and coalescence are regularised by a small modification on the surface tension. The modification is of the order of the spatial step. This regularisation ensures that the solution of the presented numerical model converges to the exact solution of the breakup of a jet in the lubrication approximation. The results of the presented numerical model agree quantitatively with the analytical solution of the Rayleigh-Plateau instability, and with experimental results on the final stage of the Rayleigh-Plateau instability.

UR - http://meetings.aps.org/Meeting/DFD11/Event/154447

M3 - Conference contribution

T3 - Bulletin of the American Physical Society

BT - Proceedings of the 64th Annual Division of Fluid Dynamics (DFD) Meeting, 20-22 November 2011, Baltimore, Maryland

ER -

A regularised one-dimensional drop formation and coalescence model on a single Eulerian grid

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