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Numerical analysis of a moving boundary problem in coastal hydrodynamics (1983)

Gopalakrishnan, T. C. ; Tung, C. C.

Chichester : Wiley-Blackwell

International Journal for Numerical Methods in Fluids 3 (1983), S. 179-200

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ISSN: 0271-2091

Keywords: Wave ; Run-up ; Hydrodynamics ; Moving-boundary ; Finite-element Model ; Engineering ; Engineering General

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: A finite element model to tackle the moving boundary problem of wave run-up on moderately steep slopes is developed. The special aspects considered in this study are (1) the modification of shallow water equations to accommodate the effect of vertical accelerations and (2) the use of Lagrangian acceleration coupled with an element that adapts itself to the moving boundary closely. The pressure term in the one-dimensional momentum equation is derived using the Eulerian equation in the vertical direction. This takes care of the vertical accelerations which are significant during the motion of a wave on moderately steep slopes. The element near the boundary is allowed to change its dimension so that the fluid boundary is closely followed. Such a flexible element precludes the need for approximation of the variables with regard to the indefinite position of the boundary. This element is split into two when its dimension becomes unduly large compared to the unchanging elements. The need for such a splitting is shown by an examination of the entries in the global matrix. Results of water profile as a wave runs up a structure are given. A brief history of the work on similar problems is outlined.

Additional Material: 12 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/fld.1650030207

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On the nonlinear waves in a developing process (1983)

Yeli, Yuan ; Huang, N. E. ; Tung, C. C.

Springer

In: Chinese Journal of Oceanology and Limnology. 1983; 1(3): 258-271. Published 1983 Dec 01. doi: 10.1007/bf02849606.

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Publication Date: 1983-12-01

Print ISSN: 0254-4059

Electronic ISSN: 1993-5005

Topics: Biology , Geosciences

Published by Springer

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Probability distribution of the Murty‐Loomis tsunami magnitude (1983)

Gan, Zi Jun ; Tung, C. C.

Taylor & Francis

In: Marine Geodesy. 1983; 6(3-4): 293-301. Published 1983 Jan 01. doi: 10.1080/15210608309379463.

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Publication Date: 1983-01-01

Print ISSN: 0149-0419

Electronic ISSN: 1521-060X

Topics: Architecture, Civil Engineering, Surveying , Geosciences , Physics

Published by Taylor & Francis

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Navier-Stokes calculations for the vortex wake of a rotor in hover (1983)

Liu, C. H. ; Tung, C. ; Thomas, J. L.

In: Other Sources

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Publication Date: 2019-06-28

Description: An efficient finite-difference scheme for the solution of the incompressible Navier-Stokes equation is used to study the vortex wake of a rotor in hover. The solution procedure uses a vorticity-stream function formulation and incorporates an asymptotic far-field boundary condition enabling the size of the computational domain to be reduced in comparison to other methods. The results from the present method are compared with experimental data obtained by smoke flow visualization and hot-wire measurements for several rotor blade configurations.

Keywords: AERODYNAMICS

Type: AIAA PAPER 83-1676

Format: text

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A non-Gaussian statistical model for surface elevation of nonlinear random wave fields (1983)

Bliven, L. F. ; Yuan, Y. ; Long, S. R. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Probability density function of the surface elevation of a nonlinear random wave field is obtained. The wave model is based on the Stokes expansion carried to the third order for both deep water waves and waves in finite depth. The amplitude and phase of the first-order component of the Stokes wave are assumed to be Rayleigh and uniformly distributed and slowly varying, respectively. The probability density function for the deep water case was found to depend on two parameters: the root-mean-square surface elevation and the significant slope. For water of finite depth, an additional parameter, the nondimensional depth, is also required. An important difference between the present result and the Gram-Charlier representation is that the present probability density functions are always nonnegative. It is also found that the 'constant' term in the Stokes expansion, usually neglected in deterministic studies, plays an important role in determining the details of the density function. The results compare well with laboratory and field experiment data.

Keywords: OCEANOGRAPHY

Type: AD-A139409 , Journal of Geophysical Research (ISSN 0148-0227); 88; Sept. 20

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