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Channel flow benchmarks

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Presentation on theme: "Channel flow benchmarks"— Presentation transcript:

1 Channel flow benchmarks
DNS datasets to validate Code_Saturne Effect of complex grids  hexa, non-conform, tetra Low Reynolds number tests Ret = 100 no turbulence model Ret = 395 tests subgrid scale model tests Towards high Reynolds numbers subgrid scale models at high Reynolds numbers

2 Channel flow benchmarks: « classic » DNS
DNS Ret = 180 Box 4 x 2 x 2, Grid 192 x 128 x 160 (4M cells)  Same grid as Mansour, Kim & Moin Results include velocity, shear and normal stresses (<u>, <u’v’> etc… ) Triple correlations (<v’u’u’> etc…) Terms in turbulent kinetic energy budget Terms in the components of each budget

3 Channel flow benchmarks: DNS Ret =180
• Grid adapted for a spectral code • but applied to a non spectral code

4 Channel flow benchmarks: DNS Ret =180
• Grid adapted for a spectral code • but applied to a non spectral code

5 Channel flow benchmarks: DNS Ret =180
• Grid adapted for a spectral code • but applied to a non spectral code

6 Channel flow benchmarks: DNS Ret =180

7 Channel flow benchmarks: DNS Ret =180

8 Channel flow benchmarks: DNS Ret =180

9 Channel flow benchmarks: Code_Saturne test grids
Hexahedral Non-conform (hexa) Box 2 x 2 x  440,000 elements Tetrahedral

10 Channel flow benchmarks: Ret = 100
DNS 880k cells  for same box size tests 440k cells Tetra poorly resolved difference in grid on each wall Hexa too coarse at wall

11 Channel flow benchmarks: Ret = 100
turbulence kinetic energy weaknesses of each case become more clear

12 Channel flow benchmarks: Ret = 395
• velocity

13 Channel flow benchmarks: Ret = 395
• shear stress

14 Channel flow benchmarks: Ret = 395
• normal stresses

15 Channel flow benchmarks: Ret = 395
• tke

16 Channel flow benchmarks: high Reynolds numbers
Box 6 x 2 x2, Grid 11 x 11 x 11 (1.3k cells)

17 Detail of the tubes that make up a bundle inside a SFR reactor
Thermal radiation ·        Ensure the tubes don’t touch, Ensure that sodium cannot get trapped (particularly important with respect to the neutronic reactions), ·        Reduce vibrations within the tube bundle, Improve the mixing near the heater and increase the rate of heat exchange.

18 First attempts to simulate the fluid
A z=100mm A z=140mm

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