Approximate analytical solution to the stationary two-dimensional heat conduction problem on infinite bar with the source of heat

An approximate analytical solution to the boundary-value heat conduction problem for an infinite bar with a heat source was obtained with the use of the integral method of heat balance, by introducing a complementary required function and complementary boundary conditions. The boundary - value probl...

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Bibliographic Details
Published inIOP conference series. Materials Science and Engineering Vol. 552; no. 1; pp. 12009 - 12018
Main Author Tkachev, V K
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.06.2019
Subjects
Boundary conditions
Boundary value problems
Conduction heating
Conductive heat transfer
Deformation effects
Electromagnetic fields
Exact solutions
Heat balance
Integrals
Mathematical analysis
Nuclear power plants
Ordinary differential equations
Partial differential equations
Two dimensional analysis
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Summary:An approximate analytical solution to the boundary-value heat conduction problem for an infinite bar with a heat source was obtained with the use of the integral method of heat balance, by introducing a complementary required function and complementary boundary conditions. The boundary - value problem for a partial differential equation is reduced to an ordinary differential equation with respect to this function due to the complementary required function that characterizes the change in temperature along the axis of symmetry in the cross-section of the bar. The complementary boundary conditions determined by the initial differential equation and the given boundary conditions are found so that their satisfaction is equivalent to the solution of the initial equation of the boundary value problem at the boundary points. The fulfilment of the equation at the boundary points as well as the heat balance integral results in the fulfilment of the initial equation inside the domain. The approximate analytical solution obtained can be used to identify the amount of internal heat generated by various production processes (vibration and deformation loads, electromagnetic fields effects, etc.) in thermal and nuclear power plants, in the rocket and space industry and other industrial facilities.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/552/1/012009