A Three-Dimensional Finite Element Analysis of Heat Transfer in the Forearm |
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Authors: | SHARI S. BARNETT PATRICK SMOLINSKI DAVID A. VORP |
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Affiliation: | Department of Mechanical Engineering, Department of Surgery , University of Pittsburghs , Pittsburgh, Pennsylvania, 15261 |
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Abstract: | Abstract The finite element method was used to analyze heat transfer within a section of the forearm while exposed to different ambient conditions and with different metabolic states. The three-dimensional model accounts for the different material properties of bone, muscle and blood and incorporates a single artery-vein pair for counter-current heat exchange. The geometry of the model was developed from anatomical cross-sectional images of the forearm. The model was used to determine the effects or rest vs. exercise, free vs. forced surface convection and 0°C vs. — 20 °C external temperatures. The results of the model were compared to experimental data and the model exhibits qualitatively correct behaviour. This model can be used to study hyperthermia, burns and cryogenic freezing of tissue. |
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Keywords: | Biological modeling finite element analysis heat transfer forearm |
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