DHCVIM: A direct heating containment vessel interactions module

Models for prediction of direct containment heating phenomena as implemented in the DHCVIM computer module are described. The models were designed to treat thermal, chemical and hydrodynamic processes in the three regions of the Sandia National Laboratory Surtsey DCH test facility: the melt generato...

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Bibliographic Details
Main Authors: Ginsberg, T., Tutu, N.K.
Format: Article in Journal/Newspaper
Language:English
Published: Brookhaven National Laboratory 1987
Subjects:
Heat Transfer
Energy Transport
Radiation Transport
Information
Energy Transfer
Water Cooled Reactors
Mathematical Models
Data
Containment
Reactor Components
22 General Studies Of Nuclear Reactors
Experimental Data
Pressure Vessels
Computer Codes
Reactors 220200* > Nuclear Reactor Technology > Components & Accessories
Numerical Data
Comparative Evaluations
D Codes
Core Catchers
Containers
Surtsey
Online Access:https://digital.library.unt.edu/ark:/67531/metadc1210104/
Description
Summary:Models for prediction of direct containment heating phenomena as implemented in the DHCVIM computer module are described. The models were designed to treat thermal, chemical and hydrodynamic processes in the three regions of the Sandia National Laboratory Surtsey DCH test facility: the melt generator, cavity and vessel. The fundamental balance equations, along with constitutive relations are described. A combination of Eulerian treatment for the gas phase and Lagrangian treatment for the droplet phase is used in the modeling. Comparisons of calculations and DCH-1 test results are presented. Reasonable agreement is demonstrated for the vessel pressure rise, melt generator pressure decay and particle size distribution.

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