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Experimental observations of the breakup of multiple metal jets in a volatile liquid

Thesis/Dissertation ·
DOI:https://doi.org/10.2172/79040· OSTI ID:79040
 [1]
  1. Univ. of Illinois, Urbana-Champaign, IL (United States)
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A postulated severe loss of coolant accident in a nuclear reactor can lead to significant core damage due to residual heat generation. Subsequently, melted core materials (i.e.; corium) could migrate downward and impinge upon the lower head of the reactor pressure vessel (RPV). During this relocation, the complexity of the reactor structure could segregate the molten corium into various flow paths. A perforated flow plate could readily provide the mechanism to segregate the molten corium. The resulting small (a few cm) diameter melt streams, driven by gravity, could then penetrate the remaining coolant in the RPV and cause any of the following events: impingement of the high temperature melt streams on the lower head could breach the RPV; re-agglomeration of the corium melt on the lower head could influence the coolability of the debris bed; "pre-mixing" of the melt streams with the coolant could lead to a vapor explosion; or, sufficient quenching of the melt streams by the coolant could produce a stabilized debris bed. An overview of the thermo-science issues related to core-melt accidents is presented by Theofanous. Thus, insight into the melt stream breakup mechanisms (i.e.; interfacial conditions, fragmentation, and geometric spacing) during the melt-coolant interactions is necessary to evaluate the plausibility, and characteristics, of these events. Molten Fuel Stream Breakup Simulation (MFSBS) experiments have been performed at Argonne National Laboratory in which simulant materials were used to determine a `boiling` jet breakup length correlation and to visualize the melt fragmentation mechanisms during the penetration of a single molten metal jet into a volatile liquid. The goal was to characterize the hydrodynamics of the corium-water interactions in a postulated core melt accident. The present experiment closely follows the procedures of the MFSBS.

Research Organization:
Illinois Univ., Urbana, IL (United States). Dept. of Nuclear Engineering
Sponsoring Organization:
USDOE
DOE Contract Number:
FG02-89ER12900
OSTI ID:
79040
Report Number(s):
DOE/ER/12900--T2; ON: DE95015001
Country of Publication:
United States
Language:
English

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Related Subjects

22 GENERAL STUDIES OF NUCLEAR REACTORS
CORIUM
FUEL-COOLANT INTERACTIONS
JETS
MELTDOWN
MOLTEN METAL-WATER REACTIONS
VELOCITY