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INVERSE HEAT CONDUCTION APPLIED TO THE MEASUREMENT OF HEAT TRANSFER COEFFICIENT ON A CYLINDER: COMPARISON BETWEEN AN ANALYTICAL AND A BOUNDARY ELEMENT TECHNIQUE.

Author(s) : MAILLET D., DEGIOVANNI A., PASQUETTI R.

Type of article: Article

Summary

A NEW METHOD USING EITHER AN ANALYTICAL OR A BOUNDARY ELEMENT INVERSE TECHNIQUE, IS DEVELOPED FOR MEASUREMENT OF LOCAL HEAT TRANSFER COEFFICIENTS. THE DIRECT MODEL CALCULATES THE TEMPERATURE FIELD INSIDE A CYLINDRICAL PIPE. THIS IS SUBMITTED TO A GIVEN HEAT TRANSFER COEFFICIENT ANGULAR PROFILE ON ITS OUTER RADIUS AND ON AN UNIFORM TEMPERATURE ON ITS INNER RAD EXPERIMENTAL TEMPERATURE MEASUREMENTS INSIDE THE CYLINDER ARE PROCESSED BY 2 TECHNIQUES. THEIR RESULTS ARE VERY CLOSE AND COHERENT WITH THOSE OF OTHER AUTHORS. VARIATION OF THE CYLINDER CONDUCTIVITY WITH TEMPERATURE, IMPLEMENTED BY THE BOUNDARY ELEMENT TECHNIQUE, SEEMS TO SHOW THAT THE AVERAGING OF ITS VALUE YIELDS A REGULARIZATION EFFECT.

Details

  • Original title: INVERSE HEAT CONDUCTION APPLIED TO THE MEASUREMENT OF HEAT TRANSFER COEFFICIENT ON A CYLINDER: COMPARISON BETWEEN AN ANALYTICAL AND A BOUNDARY ELEMENT TECHNIQUE.
  • Record ID : 1992-1096
  • Languages: English
  • Source: J. Heat Transf. - vol. 113 - n. 3
  • Publication date: 1991/08
  • Document available for consultation in the library of the IIR headquarters only.

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