ANALYSIS OF HEAT CONDUCTION FIELDS WITH MOVING BOUNDARY.
Author(s) : MORIKAWA K., KAWASHIMO K.
Type of article: Article
Summary
AN ANALYSIS WAS MADE ON UNSTEADY HEAT CONDUCTION FIELDS WITH A MOVING BOUNDARY IN CASES OF A SLAB WITH FINITE THICKNESS, A HOLLOW CYLINDER AND A HOLLOW SPHERE AS A ONE-DIMENSIONAL AND TWO-PHASE PROBLEM. FUNDAMENTAL EQUATIONS WERE DEDUCED FROM THE MINIMAL ENTROPY PRINCIPLE AND THE CONCEPT OF DEGREE OF NON-EQUILIBRIUM. THEN THE TEMPERATURE DISTRIBUTION, THE RELATION BETWEEN POSITION AND TIME AND VELOCITY OF THE MOVING BOUNDARY WERE OBTAINED.
Details
- Original title: ANALYSIS OF HEAT CONDUCTION FIELDS WITH MOVING BOUNDARY.
- Record ID : 1985-1408
- Languages: English
- Source: Bull. JSME - vol. 27 - n. 231
- Publication date: 1984
- Document available for consultation in the library of the IIR headquarters only.
Links
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Indexing
- Themes: Heat transfer
- Keywords: Unsteady state; Thermal conductivity; Geometry; Calculation; Heat transfer; Sphere; Plate; Cylinder
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