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A CONTINUUM MODEL FOR MOMENTUM, HEAT AND SPECIES TRANSPORT IN BINARY SOLID-LIQUID PHASE CHANGE SYSTEMS. 1. MODEL FORMULATION.

Author(s) : BENNON W. D., INCROPERA F. P.

Type of article: Article

Summary

SEMI-EMPIRICAL LAWS AND MICROSCOPIC DESCRIPTIONS OF TRANSPORT BEHAVIOUR HAVE BEEN INTEGRATED WITH PRINCIPLES OF CLASSICAL MIXTURE THEORY TO OBTAIN A SET OF CONTINUUM CONSERVATION EQUATIONS FOR BINARY, SOLID-LIQUID PHASE CHANGE SYSTEMS. FOR A RESTRICTED, YET FREQUENTLY ENCOUNTERED, CLASS OF PHASE CHANGE SYSTEMS, THE CONTINUUM EQUATIONS HAVE BEEN CAST INTO FORMS AMENABLE TO CLEAR PHYSICAL INTERPRETATION AND SOLUTION BY CONVENTIONAL NUMERICAL PROCEDURES.

Details

  • Original title: A CONTINUUM MODEL FOR MOMENTUM, HEAT AND SPECIES TRANSPORT IN BINARY SOLID-LIQUID PHASE CHANGE SYSTEMS. 1. MODEL FORMULATION.
  • Record ID : 1988-1370
  • Languages: English
  • Source: International Journal of Heat and Mass Transfer - vol. 30 - n. 10
  • Publication date: 1987/10

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