REVIEW
On the 275th Anniversary of the Russian Academy of SciencesANALYTICAL METHODS OF SOLUTION OF BOUNDARY-VALUE PROBLEMS OF NONSTATIONARY HEAT CONDUCTION IN REGIONS WITH MOVING BOUNDARIES
E. M. Kartashov UDC 536.2.001 Classical linear problems of nonstationary heat conduction (and of related phenomena) for canonical regions and standard boundary conditions can be solved using well-developed analytical methods yielding an exact solution of the problem [1-19]. For a bounded region, its analytical solution in the form of a Fourier series where conjugation conditions for the functions in the boundary conditions of the problem at angular points of the phase region of determination of the equation of nonstationary heat conduction are not fulfilled [17] makes it possible to improve the convergence to an absolute and uniform one up to the boundary of the region [20-22]. The improved solutions become very convenient in consideration of many practical issues of thermophysics: calculations of thermophysical constants based on solution of inverse problems; determination of the time of heating of a canonically shaped workpiece; calculation of the time in which the process reaches the stationary phase, etc. In these and other cases, it becomes possible to investigate the kinetics of the processes based on calculational analytical relations of a parametric character. L. M. Lomonosov Moscow Institute of Fine Chemical Technology, Moscow, Russia. Translated from Inzhenerno-Fizicheskii Zhurnal, Vol. 74, No. 2, pp. 171-195, March-April, 2001. Original article submitted January 5, 2000; revision submitted August 4, 2000. JEPTER7492020018 JEPTER749208