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HLPW-4/GMGW-3 : Fixed-Grid RANS Technology Focus Group Workshop Summary Ollivier-Gooch, Carl; Coder, James G
Abstract
The current state-of-the-practice technology for high-lift aerodynamic simulations is to solve the Reynolds-Averaged Navier-Stokes (RANS) equations on a fixed grid, or a refinement sequence of fixed grids. The Fixed-Grid Reynolds-Averaged Navier-Stokes Technology Focus Group set out to determine meshing requirements and best practices; whether RANS can accurately predict the change in aerodynamic performance with changes in flap deflection; whether RANS modeling can produce accurate results near 𝐶𝐿max ; and the effects of underconvergence and solution strategy on computed results. Eighteen groups of participants submitted over 100 datasets. Challenges with grid convergence and iterative convergence made it impossible to definitively answer all the questions we had posed. Despite this, we can conclude that meshes with at least half a billion cells (more than a billion degrees of freedom) are required for grid convergence away from stall; that RANS simulations cannot currently be reliably used to predict aerodynamic coefficients near stall, nor changes in coefficients with changes in flap angle; that iterative underconvergence remains a significant source of uncertainty in outputs; and that solution initialization can have an important effect on solution behavior, including flow separation patterns.
Item Metadata
| Title |
HLPW-4/GMGW-3 : Fixed-Grid RANS Technology Focus Group Workshop Summary
|
| Alternate Title |
Fourth AIAA High-Lift Prediction Workshop : Fixed-Grid Reynolds-Averaged Navier–Stokes Summary
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| Creator | |
| Date Issued |
2023-05-17
|
| Description |
The current state-of-the-practice technology for high-lift aerodynamic simulations is to solve
the Reynolds-Averaged Navier-Stokes (RANS) equations on a fixed grid, or a refinement sequence
of fixed grids. The Fixed-Grid Reynolds-Averaged Navier-Stokes Technology Focus Group
set out to determine meshing requirements and best practices; whether RANS can accurately
predict the change in aerodynamic performance with changes in flap deflection; whether RANS
modeling can produce accurate results near 𝐶𝐿max
; and the effects of underconvergence and
solution strategy on computed results. Eighteen groups of participants submitted over 100
datasets. Challenges with grid convergence and iterative convergence made it impossible to
definitively answer all the questions we had posed. Despite this, we can conclude that meshes
with at least half a billion cells (more than a billion degrees of freedom) are required for grid
convergence away from stall; that RANS simulations cannot currently be reliably used to
predict aerodynamic coefficients near stall, nor changes in coefficients with changes in flap
angle; that iterative underconvergence remains a significant source of uncertainty in outputs;
and that solution initialization can have an important effect on solution behavior, including flow
separation patterns.
|
| Genre | |
| Type | |
| Language |
eng
|
| Date Available |
2024-08-21
|
| Provider |
Vancouver : University of British Columbia Library
|
| Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
|
| DOI |
10.14288/1.0445122
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| URI | |
| Affiliation | |
| Citation |
Ollivier-Gooch, C. F., & Coder, J. G. (2023). Fourth AIAA high-lift prediction workshop: Fixed-grid Reynolds-averaged Navier–stokes summary. Journal of Aircraft, 60(6), 1785–1797.
|
| Publisher DOI |
10.2514/1.C037184
|
| Peer Review Status |
Unreviewed
|
| Scholarly Level |
Faculty
|
| Rights URI | |
| Aggregated Source Repository |
DSpace
|
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Rights
Attribution-NonCommercial-NoDerivatives 4.0 International