Abstract
The mechanism of formation of three-dimensional internal gravity waves initiated by the start of motion of a disk of given diameter and finite thickness in the horizontal direction along the disk symmetry axis from right to left at a given uniform velocity in an incompressible viscous linearly density-stratified fluid is first considered in detail. The consideration is carried out on the basis of numerical solution of the system of Navier—Stokes equations in the Boussinesq approximation and visualization of the three-dimensional vortex structure of the flow calculated. The obtained fields of the velocity vectors and pressure perturbations possess horizontal and vertical symmetry planes passing through the disk symmetry axis. The process of formation of flow in the upper half-space caused by the shear and gravitational instabilities is described. In this process, two horizontal vortex filaments are initially formed between the back disk face and the place of pulsed start and then transformed into legs of the hairpin vortex loop whose head is located to right of the start point. Thereafter, vortex rings are periodically formed above the start point during half the buoyancy period of fluid. The left-hand halves of the rings are transformed into half-waves occupying space between the disk and the start point.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Lighthill, J., Waves in Fluids, Cambridge: CUP, 1978.
Mitkin, V.V. and Chashechkin, Yu.D., Transformation of hanging discontinuities into vortex systems in a stratified flow behind a cylinder, Fluid Dynamics, 2007, vol. 42, no. 1, pp. 12–23.
Matyushin, P.V., Evolution of stratified viscous fluid flow in the beginning of motion of a body, Protsessy v Geosredakh, 2016, no. 4 (9), pp. 333–343.
Chashechkin, Yu.D. and Voeikov, I.V., Vortex systems behind a cylinder in continuously stratified fluid, Izv. RAN, Fizika Atmosfery i Okeana, 1993, vol. 29, no. 6, pp. 821–830.
Boyer, D.L., Davies, P.A., Fernando, H.J.S., and Zhang, X., Linearly stratified flow past a horizontal circular cylinder, Phil. Trans. Royal Soc. London. Series A: Math. Phys. Sci., 1989, vol. 328, no. 1601, pp. 501–528.
Lin, Q., Lindberg, W.R., Boyer, D.L., and Fernando, H.J.S., Stratified flow past a sphere, J. Fluid Mech., 1992, vol. 240, pp. 315–354.
Chomaz, J.M., Bonneton, P., and Hopfinger, E.J., The structure of the near wake of a sphere moving horizontally in a stratified fluid, J. Fluid Mech., 1993, vol. 254, pp. 1–21.
Boyer, D.L. and Davies, P.A., Laboratory studies of orographic effects in rotating and stratified flows, Annu. Rev. Fluid Mech., 2000, vol. 32, pp. 165–202.
Gushchin, V.A. and Matyushin, P.V., Mathematical modeling of the incompressible fluid flows, in AIP Conference Proceedings, 2014, vol. 1631, pp. 122–134.
Gushchin, V.A. and Matyushin, P.V., Simulation and study of stratified flows around finite bodies, Computational Mathematics and Mathematical Physics, 2016, vol. 56, no. 6, pp. 1034–1047.
Matyushin, P.V., Classification of the regimes of stratified viscous fluid flows past a disk, Protsessy v Geosredakh, 2017, no. 4 (13), pp. 678–687.
Hanazaki, H., A numerical study of three-dimensional stratified flow past a sphere, J. Fluid Mech., 1988, vol. 192, pp. 393–419.
Baidulov, V.G., Matyushin, P.V., and Chashechkin, Yu.D., Evolution of the diffusion-induced flow over a sphere submerged in a continuously stratified fluid, Fluid Dynamics, 2007, vol. 42, no. 2, pp. 255–267.
Belotserkovskii, O.M., Gushchin, V.A., and Konshin, V.N., Splitting method for studying stratified fluid flows with free surface, USSR Computational Mathematics and Mathematical Physics, 1987, vol. 27, no. 2, pp. 181–196.
Matyushin, P.V., Numerical Simulation of Three-Dimensional Separation Flows of a Homogeneous Incompressible Viscous Fluid past a Sphere, Thesis of Candidate of Phys.-Math. Sci., Speciality code 05.13.18, Moscow, 2003.
Gushchin, V.A. and Matyushin, P.V., Vortex formation mechanisms in the wake behind a sphere for 200 < Re < 380, Fluid Dynamics, 2006, vol. 41, no. 5, pp. 795–809.
Bobinski, T., Goujon-Durand, S., and Wesfreid, J.E., Instabilities in the wake of a circular disk, Phys. Rev., 2014, vol. E 89, p. 053021.
Magarvey, R.H. and Bishop, R.L., Transition ranges for three-dimensional wakes, Can. J. Phys., 1961, vol. 39, pp. 1418–1422.
Sakamoto, H. and Haniu, H., A study on vortex shedding from spheres in a uniform flow, Trans. ASME: J. Fluids Engng., 1990, vol. 112, p. 386–392.
Author information
Authors and Affiliations
Corresponding author
Additional information
Russian Text © The Author(s), 2019, published in Izvestiya RAN. Mekhanika Zhidkosti i Gaza, 2019, No. 3, pp. 83–97.
Rights and permissions
About this article
Cite this article
Matyushin, P.V. Process of the Formation of Internal Waves Initiated by the Start of Motion of a Body in a Stratified Viscous Fluid. Fluid Dyn 54, 374–388 (2019). https://doi.org/10.1134/S0015462819020095
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S0015462819020095