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A computational algorithm for constructing a two-dimensional heat wave generated by a non-stationary boundary condition

Авторы: Kazakov A.L., Spevak L.F., Lempert A.A., Nefedova O.A.

Журнал: Journal of Physics: Conference series

Том: 1392

Номер:

Год: 2019

Отчётный год: 2020

Издательство:

Местоположение издательства:

URL: https://iopscience.iop.org/article/10.1088/1742-6596/1392/1/012083/pdf

Аннотация: The paper discusses solutions of the nonlinear heat equation, which have the form of a heat wave propagating on a zero background with a finite velocity. Such solutions are not typical for parabolic equations, and their existence is associated with the degeneration of the problem at the wave (zero) front. We propose a numerical algorithm for constructing a two-dimensional heat wave, symmetrical with respect to the origin, with a non-zero boundary condition defined on the moving boundary. The main difficulty of the new task is that at each time point a heat wave front (a domain boundary) is unknown. The solution is carried out in two stages. At first, we change the roles of unknown function and radial polar coordinate. For a new unknown function at each time point, we obtain a boundary value problem for the Poisson equation in a known region. The step-by-step solving of this problem by the method of boundary elements at a given time interval allows us to determine the law of the zero front moving. At second, we approximate the found zero front by an analytical function and construct a generalized self-similar solution. The developed algorithm is implemented and tested on a task set.

Индексируется WOS: 1

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