A.H. Abdelmessih scite author profile

The Gibbs’ heated thermocouple technique for measuring a tissue’s thermal conductivity to infer the blood perfusion rate has been synthesized with a model of transient heal transport in perfused tissue. This procedure eliminates the necessity of probe calibration in surrogate tissue. The analytical predictions of the transient temperature behavior of a newly designed spherical probe were compared with experimental temperature transients to deduce thermal conductivities of and perfusion rates in gelatin and dog kidney. The principle heating modality was step heating. Consistent conductivity values for both the gelatin and the kidney were found. The calculated perfusion rates in the kidney were consistent but were higly dependent upon probe size and geometry, and the independently measured tissue’s thermal conductivity.

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Assessment of a heat transfer correlations package for water-cooled plasma-facing components in fusion reactors

Yin

Cardella²,

Abdelmessih

et al. 1994

Nuclear Engineering and Design

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A.H. Abdelmessih

Flow effects on bubble growth and collapse in surface boiling

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The effect of surface characteristics on dropwise condensation

Blood Perfusion Measurements by the Analysis of the Heated Thermocouple Probe’s Temperature Transients

Assessment of a heat transfer correlations package for water-cooled plasma-facing components in fusion reactors

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