Mechanism of Jet-Flutter : Self-Induced Oscillation of an Upward Plane Jet Impinging on a Free Surface
Haruki Madarame,Masao Iida +1 more
TLDR
In this article, an upward plane jet impinging on the free surface of a shallow rectangular tank oscillates without any external periodic force, and the imbalance generates propagating waves, and a surface level gap appears there.Abstract:
An upward plane jet impinging on the free surface of a shallow rectangular tank oscillates without any external periodic force. The movement of the impinging point leaves additional fluid mass on the surface behind the point, which does not balance the momentum supplied by the jet. The imbalance generates propagating waves, and a surface level gap appears there. The level gap is flattened not by the waves but by the vertical motion of water columns. The imbalance causes lateral displacement of jet, which in turn causes the imbalance, forming a positive feedback loop. The above model explains well why the frequency corresponds to that of water column oscillation in a partitioned tank with the same water depth, and the oscillation region has a wide range above a certain velocity limit determined by the water depth.read more
Citations
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Book
Liquid Sloshing Dynamics
TL;DR: In this article, the authors present a detailed review of liquid sloshing dynamics in rigid containers, including linear forced and non-linear interaction under external and parametric excitations.
Book ChapterDOI
Liquid Sloshing Dynamics: Fluid field equations and modal analysis in rigid containers
TL;DR: In this paper, the Dirichlet boundary conditions are classified into three classes: Neumann boundary conditions, Cauchy boundary conditions and Cauchey boundary conditions for a partially filled container.
Journal ArticleDOI
Self-induced sloshing caused by an upward round jet impinging on the free surface
H. Madarame,Koji Okamoto,M. Iida +2 more
TL;DR: In this paper, a feedback model was proposed to explain the energy supply mechanism to self-induced sloshing, which was composed of a jet deflection process caused by a lateral pressure gradient and a pressure imbalance generation process due to jet movement.
References
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The Theory of Turbulent Jets
TL;DR: In this paper, the authors present the theory of the boundary layer of a two-dimensional Turbulent Jet of Incompressible Fluid and its application to heat and diffusion problems, and determine the temperature profile in a Jet on the basis of the New Prandtl-Gortler Theory of Turbulence.
Journal ArticleDOI
Self‐Maintained Oscillations of the Jet in a Jet‐Edge System. I
TL;DR: In this article, a theory for the self-maintained transverse oscillations which arise in a low-velocity jet as it plays upon an obstacle, thus generating edge tones is presented.
Growth mechanism of self-induced sloshing caused by vertical plane jet
TL;DR: In this paper, a new growth model is proposed, which is based on a feedback loop between the sloshing and the jet, and an oscillation energy supplied for the self-induced free surface oscillations is evaluated using the momentum theory.