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Turbine Vorticity
Caption:
Whether in airplane engines or power plants, turbine blades are often subjected to extremely high temperatures. The blades are cooled internally with cold air flowing through serpentine channels. This image shows a section of a channel wall near a rib. Isosurfaces of instantaneous coherent vorticity created by shear layer instabilities on the rib enhance mixing and heat transfer. The regions of coherent vorticity are correlated to regions of high heat transfer (blue) on channel walls. Hot spots (red) are found at corners and immediately behind the rib. The software used in producing these simulations was developed under a National Science Foundation grant. The software used in producing these simulations was developed under a National Science Foundation grant. [Image 1 of 3 related images; see also, Multilouvered Fin and Velocity Streamtubes.]
More about this Image
This simulation was created by Danesh Tafti and Randy Heiland of the National Computational Science Alliance (NCSA), University of Illinois at Urbana-Champaign, using GenIDLEST computational fluid dynamics software and NCSA VisBench, a visualization system. Research represented in the visualization of the multilouvered fin is supported by the Air Conditioning Refrigeration Center at the University of Illinois at Urbana-Champaign.
(Preview Only)
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Credit: |
Credit Danesh Tafti and Randy Heiland, Univ. of Illinois-Urbana-Champaign; courtesy NCSA |
Decade of Image: |
2000 - 2009 |
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Categories:
COMPUTERS / Supercomputing
Formats Available:
Restrictions:
No additional restrictions--beyond NSF's general restrictions--have been placed on this image. For a list of general restrictions that apply to this and all images in the NSF Image Library, see the section "Conditions".
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