The discrete-element model for flows over rough surfaces was recently modified to predict drag and heat transfer for flow over randomly rough surfaces. However, the current form of the discrete-element model requires a blockage fraction and a roughness-element diameter distribution as a function of height to predict the drag and heat transfer of flow over a randomly rough surface. The requirement for a roughness-element diameter distribution at each height from the reference elevation has hindered the usefulness of the discrete-element model and inhibited its incorporation into a computational fluid dynamics (CFD) solver. To incorporate the discrete-element model into a CFD solver and to enable the discrete-element model to become a more useful engineering tool, the randomly rough surface characterization must be simplified. Methods for determining characteristic diameters for drag and heat transfer using complete three-dimensional surface measurements are presented. Drag and heat transfer predictions made using the model simplifications are compared to predictions made using the complete surface characterization and to experimental measurements for two randomly rough surfaces. Methods to use statistical surface information, as opposed to the complete three-dimensional surface measurements, to evaluate the characteristic dimensions of the roughness are also explored.
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e-mail: stepheṉmcclain@baylor.edu
e-mail: jmbrown@rockwellcollins.com
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April 2009
Research Papers
Reduced Rough-Surface Parametrization for Use With the Discrete-Element Model
Stephen T. McClain,
Stephen T. McClain
Assistant Professor
Mechanical Engineering Department,
e-mail: stepheṉmcclain@baylor.edu
Baylor University
, One Bear Place, No. 97356, Baylor, TX 76796-7356
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Jason M. Brown
Jason M. Brown
Graduate Student
Department of Mechanical Engineering,
e-mail: jmbrown@rockwellcollins.com
The University of Alabama at Birmingham
, 1530 3rd Avenue South, BEC 257, Birmingham, AL 35294-4461
Search for other works by this author on:
Stephen T. McClain
Assistant Professor
Mechanical Engineering Department,
Baylor University
, One Bear Place, No. 97356, Baylor, TX 76796-7356e-mail: stepheṉmcclain@baylor.edu
Jason M. Brown
Graduate Student
Department of Mechanical Engineering,
The University of Alabama at Birmingham
, 1530 3rd Avenue South, BEC 257, Birmingham, AL 35294-4461e-mail: jmbrown@rockwellcollins.com
J. Turbomach. Apr 2009, 131(2): 021020 (12 pages)
Published Online: February 3, 2009
Article history
Received:
August 28, 2007
Revised:
October 22, 2007
Published:
February 3, 2009
Citation
McClain, S. T., and Brown, J. M. (February 3, 2009). "Reduced Rough-Surface Parametrization for Use With the Discrete-Element Model." ASME. J. Turbomach. April 2009; 131(2): 021020. https://doi.org/10.1115/1.2952379
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