Expert system for identification of simultaneous and sequential reactor fuel failures with gas tagging
Patent
·
OSTI ID:869414
- Bolingbrook, IL
Failure of a fuel element in a nuclear reactor core is determined by a gas tagging failure detection system and method. Failures are catalogued and characterized after the event so that samples of the reactor's cover gas are taken at regular intervals and analyzed by mass spectroscopy. Employing a first set of systematic heuristic rules which are applied in a transformed node space allows the number of node combinations which must be processed within a barycentric algorithm to be substantially reduced. A second set of heuristic rules treats the tag nodes of the most recent one or two leakers as "background" gases, further reducing the number of trial node combinations. Lastly, a "fuzzy" set theory formalism minimizes experimental uncertainties in the identification of the most likely volumes of tag gases. This approach allows for the identification of virtually any number of sequential leaks and up to five simultaneous gas leaks from fuel elements.
- Research Organization:
- Argonne National Laboratory (ANL), Argonne, IL
- DOE Contract Number:
- W-31109-ENG-38
- Assignee:
- University of Chicago (Chicago, IL)
- Patent Number(s):
- US 5333157
- OSTI ID:
- 869414
- Country of Publication:
- United States
- Language:
- English
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Expert system for identification of simultaneous and sequential reactor fuel failures with gas tagging
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Related Subjects
/376/
algorithm
allows
analyzed
applied
approach
approach allows
background
barycentric
catalogued
characterized
combinations
core
cover
cover gas
detection
determined
element
elements
employing
event
experimental
expert
failure
failure detection
failures
five
formalism
fuel
fuel element
fuel elements
fuzzy
gas
gas leak
gas leaks
gas tag
gas tagging
gases
heuristic
identification
intervals
lastly
leakers
leaks
mass
mass spectroscopy
method
minimizes
node
node space
nodes
nuclear
nuclear reactor
processed
reactor
reactor core
reactor fuel
recent
reduced
reducing
regular
regular intervals
rules
samples
sequential
set
simultaneous
space
spectroscopy
substantially
substantially reduce
substantially reduced
systematic
tag
tag gas
tag node
tag nodes
tagging
tagging failure
theory
transformed
treats
trial
uncertainties
virtually
volumes
algorithm
allows
analyzed
applied
approach
approach allows
background
barycentric
catalogued
characterized
combinations
core
cover
cover gas
detection
determined
element
elements
employing
event
experimental
expert
failure
failure detection
failures
five
formalism
fuel
fuel element
fuel elements
fuzzy
gas
gas leak
gas leaks
gas tag
gas tagging
gases
heuristic
identification
intervals
lastly
leakers
leaks
mass
mass spectroscopy
method
minimizes
node
node space
nodes
nuclear
nuclear reactor
processed
reactor
reactor core
reactor fuel
recent
reduced
reducing
regular
regular intervals
rules
samples
sequential
set
simultaneous
space
spectroscopy
substantially
substantially reduce
substantially reduced
systematic
tag
tag gas
tag node
tag nodes
tagging
tagging failure
theory
transformed
treats
trial
uncertainties
virtually
volumes