The premixing and propagation phases of fuel-coolant interactions: a review of recent experimental studies and code developments
Creators
- 1. Reactor Safety Technology Research Center of BATAN (Indonesia)
Description
A vapor explosion (or an energetic fuel-coolant interactions, FCIs) is a process in which hot liquid (fuel) transfers its internal energy to colder, more volatile liquid (coolant); thus the coolant vaporizes at high pressure and expands and does works on its surroundings. Traditionally, the energetic fuel-coolant interactions could be distinguished in subsequent stages: premixing (or coarse mixing), triggering, propagation and expansion. Realizing that better and realistic prediction of fuel-coolant interaction consequences will be available understanding the phenomenology in the premixing and propagation stages, many experimental and analytical studies have been performed during more than two decades. A lot of important achievements are obtained during the time. However, some fundamental aspects are still not clear enough; thus the works are directed to that direction. In conjunction, the model/code development is pursuit. This is aimed to provide a scaling tool to bridge the experimental results to the real geometries, e.g. reactor pressure vessel, reactor containment. The present review intends to collect the available information on the recent works performed to study the premixing and propagation phases. (author). 97 refs
Availability note (English)
Available from INIS in electronic formFiles
30008105.pdf
Files
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Additional details
Publishing Information
- Imprint Pagination
- 76 p.
- Report number
- JAERI-Review--98-012
INIS
- Country of Publication
- Japan
- Country of Input or Organization
- Japan
- INIS RN
- 30008105
- Subject category
- GENERAL STUDIES OF NUCLEAR REACTORS;
- Quality check status
- Yes
- Descriptors DEI
- COMPUTER CODES; DROPLETS; EXPLOSIONS; FLOW MODELS; FRAGMENTATION; FUEL-COOLANT INTERACTIONS; JETS; MIXING; REACTOR SAFETY EXPERIMENTS; REVIEWS; VAPORS; WAVE PROPAGATION;
- Descriptors DEC
- DOCUMENT TYPES; FLUIDS; GASES; MATHEMATICAL MODELS; PARTICLES;