Volume 96,   №4

INVESTIGATION OF RADIATIVE-CONDUCTIVE HEAT TRANSFER BY NONCONTACT MEASUREMENTS. 2. APPROVAL OF THE COMPUTATIONAL-EXPERIMENTAL METHOD



An experimental installation for laser heating (ULN-1) has been developed to implement a technique for identifying mathematical models of radiative-conductive heat transfer without using contact measurements. A substantiation of the choice of the system components and of the procedure for its application is given. Approbation of the installation and of the identifi cation technique was carried out on the example of determining the thermophysical characteristics of a thin plate made of an opaque material.
An experimental installation for laser heating (ULN-1) has been developed to implement a technique for identifying mathematical models of radiative-conductive heat transfer without using contact measurements. A substantiation of the choice of the system components and of the procedure for its application is given. Approbation of the installation and of the identifi cation technique was carried out on the example of determining the thermophysical characteristics of a thin plate made of an opaque material.

Author:  A. V. Nenarokomov, S. A. Budnik, D. S. Semenov
Keywords:  heat transfer model, hyperthermia, biological tissues, inverse problem of heat exchange, experimental installation
Page:  980

A. V. Nenarokomov, S. A. Budnik, D. S. Semenov .  INVESTIGATION OF RADIATIVE-CONDUCTIVE HEAT TRANSFER BY NONCONTACT MEASUREMENTS. 2. APPROVAL OF THE COMPUTATIONAL-EXPERIMENTAL METHOD //Journal of engineering physics and thermophysics. . Volume 96, №4. P. 980 .


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