AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS

AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS

A boundary fitted non-hydrostatic finite volume model is presented to simulate two dimensional vertical free surface flows effectively deploying only 2-4 vertical layers. The algorithm is based on a projection method which results in a block tri-diagonal system of equation with pressure as the unkno...

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Main Authors: A. AHMADI, P. BADIEI, M. M. NAMIN
Format: Article
Language:English
Published: Taylor's University 2007-12-01
Series:Journal of Engineering Science and Technology
Subjects:
Implicit finite volume method
Projection method
Non-hydrostatic pressure
Free-surface flow
Top layer treatment
Online Access:http://jestec.taylors.edu.my/Vol%202%20Issue%203%20December%2007/238-%20246%20Ahmadi.pdf
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spelling doaj-9992bad0b0324e1dbe1b3bd442dde3242020-11-24T21:15:31ZengTaylor's UniversityJournal of Engineering Science and Technology1823-46902007-12-0123238246AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWSA. AHMADIP. BADIEIM. M. NAMINA boundary fitted non-hydrostatic finite volume model is presented to simulate two dimensional vertical free surface flows effectively deploying only 2-4 vertical layers. The algorithm is based on a projection method which results in a block tri-diagonal system of equation with pressure as the unknown. This system can be solved by a direct matrix solver without iteration. To purpose of minimise the computational cost, a new top-layer pressure treatment is proposed which enables the model to simulate relatively short wave motion with very small vertical layers accurately. The test of linear and nonlinear sinusoidal short wave propagation with significant vertical accelerations is applied correctly using a small number of layers. http://jestec.taylors.edu.my/Vol%202%20Issue%203%20December%2007/238-%20246%20Ahmadi.pdfImplicit finite volume methodProjection methodNon-hydrostatic pressureFree-surface flowTop layer treatment
collection DOAJ
language English
format Article
sources DOAJ
author A. AHMADI
P. BADIEI
M. M. NAMIN
spellingShingle A. AHMADI
P. BADIEI
M. M. NAMIN
AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS
Journal of Engineering Science and Technology
Implicit finite volume method
Projection method
Non-hydrostatic pressure
Free-surface flow
Top layer treatment
author_facet A. AHMADI
P. BADIEI
M. M. NAMIN
author_sort A. AHMADI
title AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS
title_short AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS
title_full AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS
title_fullStr AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS
title_full_unstemmed AN EFFICIENT BOUNDARY FITTED NON-HYDROSTATIC MODEL FOR FREE-SURFACE FLOWS
title_sort efficient boundary fitted non-hydrostatic model for free-surface flows
publisher Taylor's University
series Journal of Engineering Science and Technology
issn 1823-4690
publishDate 2007-12-01
description A boundary fitted non-hydrostatic finite volume model is presented to simulate two dimensional vertical free surface flows effectively deploying only 2-4 vertical layers. The algorithm is based on a projection method which results in a block tri-diagonal system of equation with pressure as the unknown. This system can be solved by a direct matrix solver without iteration. To purpose of minimise the computational cost, a new top-layer pressure treatment is proposed which enables the model to simulate relatively short wave motion with very small vertical layers accurately. The test of linear and nonlinear sinusoidal short wave propagation with significant vertical accelerations is applied correctly using a small number of layers.
topic Implicit finite volume method
Projection method
Non-hydrostatic pressure
Free-surface flow
Top layer treatment
url http://jestec.taylors.edu.my/Vol%202%20Issue%203%20December%2007/238-%20246%20Ahmadi.pdf
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