7. Assembly Parameters¶
This document lists all of the Assembly Parameters that are provided by the ARMI Framework and included plugins.
Assembly Parameters from Framework¶ Name
Description
Units
powerDecay
List of decay heats at each time step specified in decayHeatCalcTimesInSeconds setting.
W
orientation
Triple representing rotations counterclockwise around each spatial axis. For example, a hex assembly rotated by 1/6th has orientation (0,0,60.0)
degrees
arealPd
Power in assembly divided by its XY cross-sectional area. Related to PCT.
MW/m^2
buLimit
buLimit
chargeBu
Max block-average burnup in this assembly when it entered the core.
%FIMA
chargeCycle
Cycle number that this assembly entered the core.
chargeFis
Fissile mass in assembly when it entered the core.
kg
chargeTime
Time at which this assembly entered the core.
years
multiplicity
The number of physical assemblies that the associated object represents. This is typically 1, but may need to change when the assembly is moved between containers with different types of symmetry. For instance, if an assembly moves from a Core with 1/3rd symmetry into a spent-fuel pool with full symmetry, rather than splitting the assembly into 3, the multiplicity can be set to 3. For now, this is a bit of a hack to make fuel handling work; multiplicity in the 1/3 core should be 3 to begin with, in which case this parameter could be used as the primary means of handling symmetry and fractional domains throughout ARMI. We will probably roll that out once the dust settles on some of this SFP work. For now, the Core stores multiplicity as 1 always, since the powerMultiplier to adjust to full-core quantities.
None
daysSinceLastMove
daysSinceLastMove
kInf
kInf
maxDpaPeak
maxDpaPeak
maxPercentBu
maxPercentBu
numMoves
numMoves
timeToLimit
timeToLimit
detailedNDens
High-fidelity number density vector with up to thousands of nuclides. Used in high-fi depletion runs where low-fi depletion may also be occurring. This param keeps the hi-fi and low-fi depletion values from interfering. See core.p.detailedNucKeys for keys.
atoms/bn-cm
assyAxialSwellingSF
Assembly axial swelling due to stress-free swelling
mm
fuelVent
Boolean option to turn on/off vented fuel pins in TWR design
None
THdeltaPNoGrav
?
Pa
THdeltaPPump
Pumping pressure rise required to pump the given mass flow rate through the rod bundle
Pa
THdeltaPTotal
Total pressure difference across the assembly
Pa
THcoolantOutletT
The nominal average bulk coolant outlet temperature out of the block.
°C
THmassFlowRate
The nominal assembly flow rate
kg/s
THlocalDTout
Maximum delta-Ts for outlet temperatures of all assemblies
°C
THlocalDToutFuel
Maximum delta-Ts for outlet temperatures of fuel assemblies
°C
THorificeSetting
The ratio of pressure drop over mass flow rate squared, through an orifice
Pa/$(kg/s)^2$
THorificeZone
orifice zone for assembly; should be location specific
None
crCurrentHeight
The current height of the bottom of the control material from the 0 point in the reactor model
cm
crEndingHeight
The final position of the bottom of the control material when starting control operations as measured from the 0 point in the reactor model
cm
crRodLength
length of the control material within the control rod
cm
crStartingHeight
The initial starting position of the bottom of the control material when starting control operations as measured from the 0 point in the reactor model
cm
type
The name of the assembly input on the blueprints input
?
Pos
?
?
Ring
?
?
THcoolantInletT
?
?
assemNum
?
?
axExpWorthPT
Axial swelling reactivity
pcm/%/cm^3
coolFlowingWorthPT
Flowing coolant reactivity
pcm/%/cm^3
coolWorthPT
Coolant reactivity
pcm/%/cm^3
dischargeTime
?
?
fuelWorthPT
Fuel reactivity
pcm/%/cm^3
hotChannelFactors
Definition of set of HCFs to be applied to assembly.
None
radExpWorthPT
Radial swelling reactivity
pcm/%/cm^3
structWorthPT
Structure reactivity
pcm/%/cm^3
AziMesh
?
?
RadMesh
?
?