A simplified approach to solving conjugate heat transfer problems in annular and dissimilar parallel plate ducts

A review of conjugate convective heat transfer problems solved during the early and current time of development of this modern approach is presented. The discussion is based on analytical solutions of selected typical relatively simple conjugate problems including steady-state and transient processes, thermal material treatment, and heat and mass transfer in drying. This brief survey is accompanied by the list of almost two hundred publications considering application of different more and less complex analytical and numerical conjugate models for simulating technology processes and industrial devices from aerospace systems to food production. The references are combined in the groups of works studying similar problems so that each of the groups corresponds to one of selected analytical solutions considered in detail. Such structure of review gives the reader the understanding of early and current situation in conjugate convective heat transfer modeling and makes possible to use the information presented as an introduction to this area on the one hand, and to find more complicated publications of interest on the other hand.

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A simplified approach to solving conjugate heat transfer problems in annular and dissimilar parallel plate ducts

Cited by 4 publications

References 19 publications

Conjugate heat transfer inside a porous channel

Conjugate heat transfer inside a porous channel

Investigation on evaluation criteria of axial wall heat conduction under two classical thermal boundary conditions

Conjugate Problems in Convective Heat Transfer: Review

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