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General solution of one-dimensional,time dependent coupled heat flow systems
Authors:M.D. Mikhailov  M.N. Özişik
Affiliation:Mechanical and Aerospace Engineering Department Box 7910, North Carolina State University Raleigh, North Carolina 27695, USA
Abstract:
A new, powerful method of analysis, involving the combined use of finite integral transform and finite element techniques, is presented for the solution of time dependent heat flow systems composed of many one-dimensional elements connected through the nodes. This method leads to an eigenvalue problem which is not of the conventional Sturm-Liouville type. A procedure for the determination of the eigenvalues is described. The solution obtained is in the form of an infinite series and contains quasi-steady and transient terms. The general solution obtained can be applied in the mathematical modelling of many engineering applications such as the determination of the penetration of the daily temperature cycle into buildings, the analysis of heat transfer in array of extended surfaces in compact heat exchangers, and many others.
Keywords:
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