A hybrid mesh free local RBF-Cartesian FD scheme for incompressible flow around solid bodies
A hybrid mesh free local RBF-Cartesian FD scheme for incompressible flow around solid bodies
A method for simulating flow around the solid bodies has been presented using hybrid meshfree and mesh-based schemes. The presented scheme optimizes the computational efficiency by combining the advantages of both meshfree and mesh-based methods. In this approach, a cloud of meshfree nodes has been used in the domain around the solid body. These meshfree nodes have the ability to efficiently adapt to complex geometrical shapes. In the rest of the domain, conventional Cartesian grid has been used beyond the meshfree cloud. Complex geometrical shapes can therefore be dealt efficiently by using meshfree nodal cloud and computational efficiency is maintained through the use of conventional mesh-based scheme on Cartesian grid in the larger part of the domain. Spatial discretization of meshfree nodes has been achieved through local radial basis functions in finite difference mode (RBF-FD). Conventional finite difference scheme has been used in the Cartesian ‘meshed’ domain. Accuracy tests of the hybrid scheme have been conducted to establish the order of accuracy. Numerical tests have been performed by simulating two dimensional steady and unsteady incompressible flows around cylindrical object. Steady flow cases have been run at Reynolds numbers of 10, 20 and 40 and unsteady flow problems have been studied at Reynolds numbers of 100 and 200. Flow Parameters including lift, drag, vortex shedding, and vorticity contours are calculated. Numerical results have been found to be in good agreement with computational and experimental results available in the literature.
61-70
Javed, A.
a3a57efd-0767-45b7-90ce-eff91d14ec3a
Djidjeli, K.
94ac4002-4170-495b-a443-74fde3b92998
Xing, J.T.
d4fe7ae0-2668-422a-8d89-9e66527835ce
Cox, S.J.
0e62aaed-24ad-4a74-b996-f606e40e5c55
September 2013
Javed, A.
a3a57efd-0767-45b7-90ce-eff91d14ec3a
Djidjeli, K.
94ac4002-4170-495b-a443-74fde3b92998
Xing, J.T.
d4fe7ae0-2668-422a-8d89-9e66527835ce
Cox, S.J.
0e62aaed-24ad-4a74-b996-f606e40e5c55
Javed, A., Djidjeli, K., Xing, J.T. and Cox, S.J.
(2013)
A hybrid mesh free local RBF-Cartesian FD scheme for incompressible flow around solid bodies.
International Journal of Mathematical, Computational, Physical, Electrical and Computer Engineering, 7 (10), .
Abstract
A method for simulating flow around the solid bodies has been presented using hybrid meshfree and mesh-based schemes. The presented scheme optimizes the computational efficiency by combining the advantages of both meshfree and mesh-based methods. In this approach, a cloud of meshfree nodes has been used in the domain around the solid body. These meshfree nodes have the ability to efficiently adapt to complex geometrical shapes. In the rest of the domain, conventional Cartesian grid has been used beyond the meshfree cloud. Complex geometrical shapes can therefore be dealt efficiently by using meshfree nodal cloud and computational efficiency is maintained through the use of conventional mesh-based scheme on Cartesian grid in the larger part of the domain. Spatial discretization of meshfree nodes has been achieved through local radial basis functions in finite difference mode (RBF-FD). Conventional finite difference scheme has been used in the Cartesian ‘meshed’ domain. Accuracy tests of the hybrid scheme have been conducted to establish the order of accuracy. Numerical tests have been performed by simulating two dimensional steady and unsteady incompressible flows around cylindrical object. Steady flow cases have been run at Reynolds numbers of 10, 20 and 40 and unsteady flow problems have been studied at Reynolds numbers of 100 and 200. Flow Parameters including lift, drag, vortex shedding, and vorticity contours are calculated. Numerical results have been found to be in good agreement with computational and experimental results available in the literature.
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Published date: September 2013
Organisations:
Civil Maritime & Env. Eng & Sci Unit
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Local EPrints ID: 359003
URI: http://eprints.soton.ac.uk/id/eprint/359003
PURE UUID: 012643d0-af64-421d-8593-70e765398d0f
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Date deposited: 18 Oct 2013 12:49
Last modified: 14 Mar 2024 15:13
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A. Javed
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