Incompressible and anelastic flow simulations on numerically generated grids

R. D. Sharman; T. L. Keller; M. G. Wurtele

doi:10.1175/1520-0493(1988)116<1124:IAAFSO>2.0.CO;2

Incompressible and anelastic flow simulations on numerically generated grids

R. D. Sharman, T. L. Keller, M. G. Wurtele

Aviation Applications Program

University of California at Los Angeles

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

In the numerical simulation of incompressible and anelastic flows, it is necessary to solve an elliptic equation at each time step. When the boundaries of such flows are nonrectangular, it may be advantageous to solve the equations on a new, numerically generated coordinate grid, in which the property of orthogonality has been preserved. Flow equations in general curvilinear coordinates maintaining the conservative form are given for both anelastic models using the momentum equations, and for incompressible models, using the vorticity equation. Some examples of grids generated by this technique are exhibited. Three examples of the flow of a stratified fluid over obstacles are presented, in which the grid-generation permits some new results to be obtained. -from Authors

Original language	English
Pages (from-to)	1124-1136
Number of pages	13
Journal	Monthly Weather Review
Volume	116
Issue number	5
DOIs	https://doi.org/10.1175/1520-0493(1988)116<1124:IAAFSO>2.0.CO;2
State	Published - 1988

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10.1175/1520-0493(1988)116<1124:IAAFSO>2.0.CO;2

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abstract = "In the numerical simulation of incompressible and anelastic flows, it is necessary to solve an elliptic equation at each time step. When the boundaries of such flows are nonrectangular, it may be advantageous to solve the equations on a new, numerically generated coordinate grid, in which the property of orthogonality has been preserved. Flow equations in general curvilinear coordinates maintaining the conservative form are given for both anelastic models using the momentum equations, and for incompressible models, using the vorticity equation. Some examples of grids generated by this technique are exhibited. Three examples of the flow of a stratified fluid over obstacles are presented, in which the grid-generation permits some new results to be obtained. -from Authors",

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AU - Sharman, R. D.

AU - Keller, T. L.

AU - Wurtele, M. G.

PY - 1988

Y1 - 1988

N2 - In the numerical simulation of incompressible and anelastic flows, it is necessary to solve an elliptic equation at each time step. When the boundaries of such flows are nonrectangular, it may be advantageous to solve the equations on a new, numerically generated coordinate grid, in which the property of orthogonality has been preserved. Flow equations in general curvilinear coordinates maintaining the conservative form are given for both anelastic models using the momentum equations, and for incompressible models, using the vorticity equation. Some examples of grids generated by this technique are exhibited. Three examples of the flow of a stratified fluid over obstacles are presented, in which the grid-generation permits some new results to be obtained. -from Authors

AB - In the numerical simulation of incompressible and anelastic flows, it is necessary to solve an elliptic equation at each time step. When the boundaries of such flows are nonrectangular, it may be advantageous to solve the equations on a new, numerically generated coordinate grid, in which the property of orthogonality has been preserved. Flow equations in general curvilinear coordinates maintaining the conservative form are given for both anelastic models using the momentum equations, and for incompressible models, using the vorticity equation. Some examples of grids generated by this technique are exhibited. Three examples of the flow of a stratified fluid over obstacles are presented, in which the grid-generation permits some new results to be obtained. -from Authors

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U2 - 10.1175/1520-0493(1988)116<1124:IAAFSO>2.0.CO;2

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SP - 1124

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JO - Monthly Weather Review

JF - Monthly Weather Review

IS - 5

ER -

Incompressible and anelastic flow simulations on numerically generated grids

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