Nonlinear free-surface flow due to an impulsively started submerged point sink

MING XUE; DICK K. P. YUE

doi:10.1017/S0022112098001335

Abstract

The unsteady fully nonlinear free-surface flow due to an impulsively started submerged point sink is studied in the context of incompressible potential flow. For a fixed (initial) submergence h of the point sink in otherwise unbounded fluid, the problem is governed by a single non-dimensional physical parameter, the Froude number, [Fscr ]≡Q/4π(gh5)1/2, where Q is the (constant) volume flux rate and g the gravitational acceleration. We assume axisymmetry and perform a numerical study using a mixed-Eulerian–Lagrangian boundary-integral-equation scheme. We conduct systematic simulations varying the parameter [Fscr ] to obtain a complete quantification of the solution of the problem. Depending on [Fscr ], there are three distinct flow regimes: (i) [Fscr ]<[Fscr ]1≈0.1924 – a ‘sub-critical’ regime marked by a damped wave-like behaviour of the free surface which reaches an asymptotic steady state; (ii) [Fscr ]1<[Fscr ]<[Fscr ]2≈0.1930 – the ‘trans-critical’ regime characterized by a reversal of the downward motion of the free surface above the sink, eventually developing into a sharp upward jet; (iii) [Fscr ]>[Fscr ]2 – a ‘super-critical’ regime marked by the cusp-like collapse of the free surface towards the sink. Mechanisms behind such flow behaviour are discussed and hydrodynamic quantities such as pressure, power and force are obtained in each case. This investigation resolves the question of validity of a steady-state assumption for this problem and also shows that a small-time expansion may be inadequate for predicting the eventual behaviour of the flow.

Crossref Citations

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

Tyvand, Peder A. and Storhaug, Aanund R. F. 2000. Green functions for impulsive free-surface flows due to bottom deflections in two-dimensional topographies. Physics of Fluids, Vol. 12, Issue. 11, p. 2819.

Landrini, M. and Tyvand, P. A. 2001. Practical Asymptotics. p. 131.

Ahmed, M. Hassan, I. and Esmail, N. 2003. Modeling of the Onset of Gas Entrainment Through a Finite-Side Branch. Journal of Fluids Engineering, Vol. 125, Issue. 5, p. 902.

Haugen, Kjetil B. and Tyvand, Peder A. 2003. Free-surface evolution due to an impulsive bottom sink at uniform depth. Physics of Fluids, Vol. 15, Issue. 3, p. 742.

Tyvand, Peder A. and Haugen, Kjetil B. 2005. An impulsive bathtub vortex. Physics of Fluids, Vol. 17, Issue. 6,

Stokes, T. E. Hocking, G. C. and Forbes, L. K. 2005. Unsteady flow induced by a withdrawal point beneath a free surface. The ANZIAM Journal, Vol. 47, Issue. 2, p. 185.

Ahmed, Mahmoud A. 2006. Theoretical Analysis of the Onset of Gas Entrainment from a Stratified Two-Phase Region Through Two Side-Oriented Branches Mounted on a Vertical Wall. Journal of Fluids Engineering, Vol. 128, Issue. 1, p. 131.

Forbes, Lawrence K. and Hocking, Graeme C. 2007. Unsteady draining flows from a rectangular tank. Physics of Fluids, Vol. 19, Issue. 8,

Forbes, Lawrence K. Hocking, Graeme C. and Stokes, Tim E. 2008. On starting conditions for a submerged sink in a fluid. Journal of Engineering Mathematics, Vol. 61, Issue. 1, p. 55.

Ahmed, M. 2008. Influence of Wall Inclination Angles on the Onset of Gas Entrainment During Single and Dual Discharges From a Reservoir. Journal of Fluids Engineering, Vol. 130, Issue. 2,

Stokes, T.E. Hocking, G.C. and Forbes, L.K. 2008. Unsteady free surface flow induced by a line sink in a fluid of finite depth. Computers & Fluids, Vol. 37, Issue. 3, p. 236.

YAN, HONGMEI LIU, YUMING KOMINIARCZUK, JAKUB and YUE, DICK K. P. 2009. Cavity dynamics in water entry at low Froude numbers. Journal of Fluid Mechanics, Vol. 641, Issue. , p. 441.

Forbes, Lawrence K. and Hocking, Graeme C. 2010. Unsteady draining of a fluid from a circular tank. Applied Mathematical Modelling, Vol. 34, Issue. 12, p. 3958.

Stokes, T. E. Hocking, G. C. and Forbes, L. K. 2012. Steady free surface flows induced by a submerged ring source or sink. Journal of Fluid Mechanics, Vol. 694, Issue. , p. 352.

Moreira, R. M. and Peregrine, D. H. 2012. Nonlinear interactions between deep-water waves and currents. Journal of Fluid Mechanics, Vol. 691, Issue. , p. 1.

Fedorchenko, A. I. Stachiv, I. and Trávníček, Z. 2013. Spontaneous development of rotating inertial gravity wave inside the cylindrical tank with combined in- and outflow. Thermophysics and Aeromechanics, Vol. 20, Issue. 2, p. 133.

LUSTRI, CHRISTOPHER J. and CHAPMAN, S. JONATHAN 2014. Unsteady flow over a submerged source with low Froude number. European Journal of Applied Mathematics, Vol. 25, Issue. 5, p. 655.

HOCKING, G. C. FORBES, L. K. and STOKES, T. E. 2014. A NOTE ON STEADY FLOW INTO A SUBMERGED POINT SINK. The ANZIAM Journal, Vol. 56, Issue. 2, p. 150.

Islam, Md Rashedul and Zhu, David Z. 2015. Selective Withdrawal of Two-Layer Stratified Flows with a Point Sink. Journal of Hydraulic Engineering, Vol. 141, Issue. 7,

HOLMES, R. J. and HOCKING, G. C. 2016. A line sink in a flowing stream with surface tension effects. European Journal of Applied Mathematics, Vol. 27, Issue. 2, p. 248.

Download full list

Article contents

Nonlinear free-surface flow due to an impulsively started submerged point sink

Abstract

Access options

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

Article contents

Nonlinear free-surface flow due to an impulsively started submerged point sink

Abstract

Access options

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