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A survey of exact solutions of inviscid field equations in the theory of shear flow instabilty

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Abstract

This paper presents a survey of undisturbed flows that take one or another of the field equations of inviscid shear flow instability theory (e.g. theRayleigh equation,Taylor-Goldstein-Haurwitz equation or theKuo equation) to a differential equation satisfied by aknown transcendental function forarbitrary complex values of the parameters. Some mean velocity profiles having this feature are well known. Thus, piecewise linear mean velocity profiles take theRayleigh equations to a constant-coefficient differential equation and the exponential mean velocity profile takes theRayleigh equation to theGauss hypergeometric equation. Less well known is the fact that a variety of mean velocity profiles take theRayleigh equation to a differential equation due toKarl Heun. These profiles include: (i) the sinusoidal profile; (ii) the hyperbolic tangent profile (an example pointed out byMiles (1963)); (iii) the profile in the form of the square of a hyperbolic secant (theBickley jet); and, (iv) a skewed velocity profile in which each component has the form of a quadratic function of the variable exp(−z/l) (in whichz is the cross-stream coordinate andl is a length scale). In all of these cases, one or another author has previously identified aregular neutral mode solution of theRayleigh equation and has expressed that solution in the form of elementary functions. Such regular neutral modes apparently represent cases in which the solution ofHeun's equation (which is normally an infinite series) truncates to a single term. The survey concludes by noting that the parabolic mean velocity profile takes theRayleigh equation to thedifferential equation of the spheroidal wave function.

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References

  • Chen, Wen-Chin, Solution of the Rayleigh stability problem for a skewed mean velocity profile whose horizontal velocity components are quadratic in the variable γ=exp (−z). Thesis submitted for the Master of Science degree, Department of Mechanical and Aerospace Engineering, Florida Institute of Technology, Spring (1991).

  • Chiarulli, P. and Freeman, J.C. (under the supervision ofC.C. Lin), Stability of the boundary layer. Technical Report No. F-TR-1197-IA (GDAM A-9-M VI). Headquarters Air Materiel Command, Wright-Patterson Air Force Base, Dayton, Ohio (1948).

    Google Scholar 

  • Drazin, P.G. and Howard, L.N., Hydrodynamic stability of parallel flow of inviscid fluid.Advances in Applied Mechanics 9 (1966) 1–89.

    Google Scholar 

  • Goldstein, S., On the stability of superposed streams of fluids of different densities.Proc. Roy. Soc. (Lond.) A 132 (1931) 424–548.

    Google Scholar 

  • Gregory, N., Stuart, J.T., and Walker, W.S., On the stability of three-dimensional boundary layers with application to the flow due to a rotating disk.Phil. Trans. Roy. Soc. (Lond.) A 248 (1955) 155–199.

    Google Scholar 

  • Haurwitz, Bernard, Zur Theorie der Wellenbewegungen in Luft und Wasser.Veröffentlichungen des Geophysikalischen Instituts der Universität Leipzig. (herausgegeben von L. Weickmann). Zweite Serie: Spezialarbeiten aus dem Geophysikalischen Institut. 5(1), (i+106 ss) (1931).

  • Heun, Karl, Zur Theorie der Riemann'schen Funktionen zweiter Ordnung mit vier Verzweigungspunkten.Mathematische Annalen 33 (1889a) 161–179.

    Google Scholar 

  • Heun, Karl, Beiträge zur Theorie der Lame'schen Funktionen.Mathematische Annalen 33 (1889b) 180–196.

    Google Scholar 

  • Hughes, T.H. and Reid, W.H., On the stability of the asymptotic suction boundary layer.The Journal of Fluid Mechanics 23 (1965) 715–735.

    Google Scholar 

  • Kuo, Hsiao-Lan, Dynamic instability of two-dimensional nondivergent flow in a barotropic atmosphere.Journal of Meteorology 6 (1949) 105–122.

    Google Scholar 

  • Kuo, Hsiao-Lan, Dynamics of quasigeostrophic flows and instability theory.Advances in Applied Mechanics 13 (1973) 247–330.

    Google Scholar 

  • Meixner, J., Spezielle Funktionen der mathematischen Physik. InEncyclopedia of Physics. 1 (1956) 117–217 (General editor S. Flügge).

    Google Scholar 

  • Meixner, J. and Schäfke, F.W.,Mathieusche Funktionen und Sphäroidfunktionen. (Grudleheren der Mathematischen Wissenschaften in Einzeldarstellen, Springer-Verlag, Berlin (1954).

    Google Scholar 

  • Miles, J.W., On the stability of heterogeneous shear flows. Part 2.The Journal of Fluid Mechanics 16 (1963) 209–227.

    Google Scholar 

  • Morse, P.M. and Feshbach, H.,Methods of Theoretical Physics (in two volumes), McGraw-Hill (1953).

  • Niven, C., On the conduction of heat in ellipsoids of revolution.Phil. Trans. Roy. Soc. (A) 171 (1881) 117–151.

    Google Scholar 

  • Olver, F.W.J.,Asymptotics and Special Functions. Academic Press (1974).

  • Rayleigh, Lord, On the stability, or instability, of certain fluid motions.Proc. Lond. Math. Soc. 11 (1880) 57–70. AlsoScientific Papers 1 (1880) 474–487.

    Google Scholar 

  • Stuart, J.T., On the effects of uniform suction on the steady flow due to a rotating disk.Quarterly Journal of Mechanics and Applied Mechanics 7 (1954) 446–457.

    Google Scholar 

  • Taylor, G.I., Effect of variation in density on the stability of superposed streams of fluid.Proc. Roy. Soc. (Lond.) A 132 (1931) 499–523. AlsoScientific Papers 2 (1931) 219–239. Cambridge University Press.

    Google Scholar 

  • Tollmien, Walter, Über die Entstehung der Turbulenz.Gesellschaft der Wissenschaft (Göttingen). Nachrichten. Mathematiche und Physische Klasse (no volume number), ss 21–44. [Translated (by Dwight M. Miner as: The production of turulence.U.S. National Advisory Committee for Aeronautics, Technical Memorandum TM-609, March 1931] (1929).

  • Tollmien, Walter, Ein allgemeines Kriterium der Instabilität laminarer Geschwindigkeitsverteilungen.Gesellschaft der Wissenschaft (Göttingen). Nachrichten. Mathematiche und Physische Klasse (Fachgruppe I), Neue Folge 1, ss 79–114. [Translated (by J. Vanier) as: General instability criterion of laminar velocity distributions.U.S. National Advisory Committee for Aeronautics. Technical Memorandum TM-792, April 1936] (1935).

  • Yih, Chia-Shun,Fluid Mechanics, McGraw-Hill (1969).

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Authors and Affiliations

  1. Department of Mechanical and Aerospace Engineering, Florida Institute of Technology, 32901, Melbourne, Florida, USA

    John M. Russell

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  1. John M. Russell
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Dedicated to Mårten T. Landahl on the occasion of his sixty-fifth birthday by a former apprentice as a token of his respect and gratitude.

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Russell, J.M. A survey of exact solutions of inviscid field equations in the theory of shear flow instabilty. Appl. Sci. Res. 53, 163–186 (1994). https://doi.org/10.1007/BF00849653

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