Concurrent simulation of reactor core dynamics

Author

Burton, A.W. ; Malinowski, K.

Author_Institution

Lucas Advanced Engineering Centre, Solihull, UK

Volume

140

Issue

3

fYear

1993

fDate

5/1/1993 12:00:00 AM

Firstpage

205

Lastpage

215

Abstract

Illustrates the use of parallel processing to simulate dynamical systems described by a complex high-dimensional set of ordinary differential equations. A substantial paradigm problem is drawn from the nuclear industry to illustrate the use of an integrated parallel processing methodology. This includes heuristic rules for algorithm and architecture selection, a classification for decomposition techniques, and their use in a well known and structured top-down approach. A new (parallel) version of the Davison-Cross stiff system solver is introduced and used in five different parallel processing configurations. Significant benefits owing to the extensive use of parallel emulation techniques to iteratively propose and refine candidate parallel processing solutions are highlighted.

Keywords

concurrent engineering; digital simulation; fission reactor cooling and heat recovery; fission reactor core control and monitoring; nuclear engineering computing; parallel processing; Davison-Cross stiff system solver; LMFBR; classification; concurrent engineering; concurrent simulation; decomposition techniques; digital simulation; dynamical systems; heuristic rules; nuclear engineering computing; ordinary differential equations; parallel processing; reactor core dynamics; top-down approach;

fLanguage

English

Journal_Title

Control Theory and Applications, IEE Proceedings D

Publisher

iet

ISSN

0143-7054

Type

jour

Filename

214849