General formulation of an HCDA bubble rising in a sodium pool and the effect of nonequilibrium on fuel transport. [LMFBR]
This report which improved the formulation of the previous reports is designed to investigate the effect of the interfacial nonequilibrium mass transfer and the radiative heat transfer on the amount of the fuel vapor condensed before the bubble reaches to the cover-gas region. Consideration is given to a fuel dominated bubble which is assumed to have just penetrated into the sodium pool in a spherical form subsequent to an Hypothetical Core Disruptive Accident (HCDA). The two-phase bubble mixture as it rises through the sodium pool to the cover-gas region is formulated. The formulation takes into account the effects of the nonequilibrium mass transfer at the interfaces and of the radiative cooling of the bubble as well as the kinematic, dynamic and thermal effects of the surrounding fields. The results of calculation for the amount of the fuel vapor condensed before the bubble reaches the cover-gas region are presented over a wide possible range of the evaporation coefficient as well as the liquid sodium-bubble interface absorbtivity.
- Research Organization:
- Wisconsin Univ., Milwaukee (USA). Coll. of Engineering and Applied Science
- DOE Contract Number:
- AS02-76ET37227
- OSTI ID:
- 5236097
- Report Number(s):
- DOE/ET/37227-7; ON: DE82013562; TRN: 82-015965
- Resource Relation:
- Other Information: Portions of document are illegible
- Country of Publication:
- United States
- Language:
- English
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General formulation of an HCDA bubble rising in a sodium pool and the effect of nonequilibrium on fuel transport
General formulation of an HCDA bubble rising in a sodium pool and the effect of nonequilibrium on fuel transport
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