Numerical analysis of an extremity in a cold environment including countercurrent arterio-venous heat exchange.

A model of the thermal behavior of an extremity, e.g., a finger, is presented. The model includes the effects of heat conduction, metabolic heat generation, heat transport by blood perfusion, heat exchange between the tissue and the large blood vessels, and arterio-venous heat exchange. Heat exchange with the environment through a layer of thermal insulation, depicting thermal handwear, is also considered. The tissue is subdivided into four concentric layers simulating, from the center outward, core, muscle, fat, and skin. Differential heat balance equations are formulated for the tissue and for the major artery and the major vein traversing the finger. These coupled equations are solved numerically by a finite-difference, alternating direction method employing a Thomas algorithm. The numerical scheme was extensively tested for its stability and convergence. This paper presents the model equations and results of the convergence tests, and shows plots of blood and tissue temperatures along the axis of the model for combinations of parameters including the effect of countercurrent heat exchange between the artery and the vein.

[1]  Louis A. Hageman,et al.  Iterative Solution of Large Linear Systems. , 1971 .

[2]  William F. Ames,et al.  3 – Elliptic equations , 1977 .

[3]  G. E. Myers,et al.  Analytical Methods in Conduction Heat Transfer , 1998 .

[4]  S. Weinbaum,et al.  Heat exchange between unequal countercurrent vessels asymmetrically embedded in a cylinder with surface convection , 1990 .

[5]  S. Weinbaum,et al.  A new analytic technique for 3-D heat transfer from a cylinder with two or more axially interacting eccentrically embedded vessels with application to countercurrent blood flow , 1993 .

[6]  K B Pandolf,et al.  Thermoregulatory model for immersion of humans in cold water. , 1988, Journal of applied physiology.

[7]  A. C. Burton THE RANGE AND VARIABILITY OF THE BLOOD FLOW IN THE HUMAN FINGERS AND THE VASOMOTOR REGULATION OF BODY TEMPERATURE , 1939 .

[8]  J. Knochel Environmental heat illness. An eclectic review. , 1974, Archives of internal medicine.

[9]  E. Wissler An analytical solution countercurrent heat transfer between parallel vessels with a linear axial temperature gradient. , 1988, Journal of Biomechanical Engineering.

[10]  K. Keller,et al.  An analysis of peripheral heat transfer in man. , 1971, Journal of applied physiology.

[11]  G. E. Myers,et al.  Thermal response of human legs during cooling. , 1970, Journal of applied physiology.

[12]  K R Foster,et al.  Small-scale temperature fluctuations in perfused tissue during local hyperthermia. , 1986, Journal of biomechanical engineering.

[13]  K B Pandolf,et al.  Quantification of conservative endurance times in thermally insulated cold-stressed digits. , 1991, Journal of applied physiology.