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contributor authorM. Zhu
contributor authorD. E. Lemons
contributor authorS. Weinbaum
contributor authorL. M. Jiji
date accessioned2017-05-08T23:26:48Z
date available2017-05-08T23:26:48Z
date copyrightFebruary, 1988
date issued1988
identifier issn0148-0731
identifier otherJBENDY-25833#74_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/103689
description abstractThe extensive series of experiments reported in Lemons et al. [1] show that measureable local tissue temperature fluctuations are observed primarily in the vicinity of the 100–500 μm countercurrent vessels of the microcirculation and thus strongly support the basic hypothesis in the new bioheat equation of Weinbaum and Jiji [2] that these countercurrent microvessels are the principal determinants of local blood-tissue heat transfer. However, the detailed temperature profiles in the vicinity of these vessels indicate that large asymmetries in the local temperature field can result from the significant differences in size between the countercurrent artery and vein. Using the superposition techniques of Baish et al. [9] , the paper first presents a solution to the classic problem of an unequal countercurrent heat exchanger with heat loss to the far field. This solution is then used to generalize the Weinbaum-Jiji bioheat equation and the conductivity tensor that appears in this equation to vessels of unequal size. An asymptotic analysis has also been developed to elucidate the relationship between the near field temperature of the artery-vein pair and the local average tissue temperature. This analysis is used to rigorously prove the closure approximation relating the local arterial-venous temperature difference and the mean tissue temperature gradient which had been derived in [2] using a more heuristic approach.
publisherThe American Society of Mechanical Engineers (ASME)
titleOn the Generalization of the Weinbaum-Jiji Bioheat Equation to Microvessels of Unequal Size; The Relation Between the Near Field and Local Average Tissue Temperatures
typeJournal Paper
journal volume110
journal issue1
journal titleJournal of Biomechanical Engineering
identifier doi10.1115/1.3108409
journal fristpage74
journal lastpage81
identifier eissn1528-8951
keywordsTemperature
keywordsBiological tissues
keywordsEquations
keywordsVessels
keywordsTemperature gradients
keywordsHeat losses
keywordsTemperature profiles
keywordsBlood
keywordsHeat exchangers
keywordsApproximation
keywordsConductivity
keywordsHeat transfer
keywordsFluctuations (Physics) AND Tensors
treeJournal of Biomechanical Engineering:;1988:;volume( 110 ):;issue: 001
contenttypeFulltext


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