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A general theory of flooding implementing the cuspoid catastrophe

The flooding phenomenon can be defined as the maximum attainable flow
condition beyond which the well defined countercurrent flow pattern can no longer
exist. Thus the countercurrent flow limit (CCFL) or the flooding limit may be thought
of as the flow condition at which the strong interaction between the two phases
occurs.
Considerable effort has been devoted to understanding and analyzing the
flooding transition in many fields. For example; the flooding phenomenon is one of the
important phenomena encountered in the safety analysis of light water reactors
(pressurized water reactors and boiling water reactors). Accurate predictions of
flooding behavior are particularly important in the assessment of emergency core
cooling system (ECCS) performance. Currently, the postulated loss-of-coolant
accident (LOCA) is considered the design basis accident. A physical understanding of
the flooding phenomenon will help assess core refill during the course of a LOCA.
Understanding the physical mechanisms of the flooding phenomenon might help
establish more reliable equations and correlations which accurately describe the
thermal hydraulic behavior of the system. The models can provide best-estimate
capability to the design codes used in the evaluation of ECCS performance.
The primary concern of this study was to:
1. Understand the physical mechanisms involved in the flooding phenomenon in
order to derive a suitable analytical model.
2. Show that the combination of:
a. Linear Instability Theory
b. Kinematic Wave Theory
c. Catastrophe Theory
can provide a general model for flooding phenomenon.
The theoretical model derived using the aforementioned combination of theories
indicates good agreement between the experimental and the predicted values.
Comparisons have been made using a large volume of air-water flooding data. / Graduation date: 1991

Identiferoai:union.ndltd.org:ORGSU/oai:ir.library.oregonstate.edu:1957/37475
Date06 June 1990
CreatorsLafi, Abd Y.
ContributorsReyes, Jose N. Jr
Source SetsOregon State University
Languageen_US
Detected LanguageEnglish
TypeThesis/Dissertation

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