Title of article
Inverse determination of boundary conditions during boiling water heat transfer in quenching operation
Author/Authors
A. Buczek، نويسنده , , T. Telejko، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
6
From page
1324
To page
1329
Abstract
Heat transfer equations describe in most general terms the relationship of temperature, time and space coordinates. In order to achieve a solution matching a given phenomenon, unicity conditions of the solution have to be determined. One of them is the heat transfer coefficient. In complex heat transfer processes, to which belong quenching operation, that coefficient is being determined experimentally or numerically.
This paper presents a technique for identifying the local heat transfer coefficient when cooling hot bodies in water during quenching. A dynamic method was applied, using inverse solution of the heat transfer equation. In that solution, a temperature experimentally determined during sensor cooling is set in the equation. The paper presents the results of measurements and calculations as well as a discussion of results for various cooling conditions and positions of the active surface of the sensor.
Keywords
Heat transfer , Quenching operation , Inverse solution
Journal title
Journal of Materials Processing Technology
Serial Year
2004
Journal title
Journal of Materials Processing Technology
Record number
1178849
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