Design sensitivity analysis, along with the shape optimization of heat diffusion problems using the boundary element method (BEM), is presented in this paper. The present approach utilizes the implicit differentiation of discretized boundary integral equations with respect to the design variables to yield the sensitivity equations. A technique based on the response of an object to a constant boundary temperature is presented for the evaluation of singular terms in the thermal sensitivity kernels. A procedure for the design sensitivity analysis of a reduced system of equations obtained via substructuring and condensation is also presented. The BEM formulations are implemented for both two-dimensional and axisymmetric objects. A number of sample problems are solved to demonstrate the accuracy of the present sensitivity formulation and to obtain optimal configurations of some mechanical components of practical interest, which are subjected to different thermal environments.
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Shape Sensitivities and Optimal Configurations for Heat Diffusion Problems: a BEM Approach
S. Saigal,
S. Saigal
Department of Civil Engineering, Carnegie Institute of Technology, Carnegie Mellon University, Pittsburgh, PA 15213
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A. Chandra
A. Chandra
Department of Aerospace and Mechanical Engineering, University of Arizona, Tucson, AZ 85721
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S. Saigal
Department of Civil Engineering, Carnegie Institute of Technology, Carnegie Mellon University, Pittsburgh, PA 15213
A. Chandra
Department of Aerospace and Mechanical Engineering, University of Arizona, Tucson, AZ 85721
J. Heat Transfer. May 1991, 113(2): 287-295 (9 pages)
Published Online: May 1, 1991
Article history
Received:
October 17, 1989
Revised:
June 4, 1990
Online:
May 23, 2008
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A commentary has been published:
Discussion: “A High Speed Photography Study of Cavitation in a Dynamically Loaded Journal Bearing” (Sun, D. C., and Brewe, D. E., 1991, ASME J. Tribol., 113, pp. 287–292)
Citation
Saigal, S., and Chandra, A. (May 1, 1991). "Shape Sensitivities and Optimal Configurations for Heat Diffusion Problems: a BEM Approach." ASME. J. Heat Transfer. May 1991; 113(2): 287–295. https://doi.org/10.1115/1.2910559
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