Solving the dual-phase lag bioheat transfer equation by the generalized finite difference method

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Authors

  • Ł. Turchan Institute of Computational Mechanics and Engineering, Silesian University of Technology, Poland

Abstract

The modeling of bioheat transfer process described by the dual-phase lag equation is considered. The basic equation is supplemented by the appropriate boundary-initial conditions. In the central part of the cylindrical domain the heated sub-domain is located. In this region the additional component determining the capacity of an internal heat source is taken into account. At the stage of numerical computations the generalized finite difference method (GFDM) is used. The GFDM nodes distribution is generated in a random way (with some limitations). The examples of computations for different nodes distribution and comparison with the classical finite difference method are presented. In the final part of the paper the conclusions are formulated.

Keywords:

bioheat transfer, dual-phase lag model, generalized finite difference method

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