14.10. Nomenclature

Symbol

Definition

Units

\(l\)

Linear

n

Time step n

Prime always indicates that a quantity refers to a unit of generalized smear volume

Subscripts

ac

Acoustic

an

Annular

bb

Bubbly or bubble

bk

Lower boundary of node K

ca

Cavity

ch

Coolant channel

cl

Cladding

co

Condensation

deet

De-entrainment

drag

Drag

ej

Ejected or ejection

et

Entrained or entrainment

fc

Fuel/clad interface

ff

Frozen fuel

ffcl

Frozen fuel on cladding

ffsr

Frozen fuel on structure

fi

Free fission gas in coolant channel

fica

Free fission gas in molten pin cavity

ficaxx

Used for special fission gas volume fraction calculation (see Eq. 14.2-38a)

fm

Film (stationary liquid sodium film or moving annular fuel film)

fr

Friction

friction

Friction

FR1

Flow regime 1 - particulate fuel flow

FR3

Flow regime 3 - partially or fully annular flow

FR4

Flow regime 4 - bubbly fuel flow

fsca

Dissolved fission gas in the molten pin cavity

fs

Dissolved fission gas in the coolant channel

fu

Liquid and/or mobile solid fuel in the coolant channel

fuca

Mobile fuel in the molten pin cavity

fuch

Mobile fuel in the coolant channel (including fuel vapor)

fufi

Fuel and fission gas

fv

Fuel vapor in the coolant channel

fvca

Fuel vapor in the molten pin cavity

fz

Freezing, frozen

hoop

Hoop (stress)

Ht

Heat transfer

i

Axial coolant channel index, specific enthalpy

IB

Uppermost slug segment of lower sodium slug

if

Interface

in

Inner (middle) clad node or structural node facing neighboring

hexan wall

inlet

Subassembly inlet

IT

Lowermost slug segment of upper sodium slug

K

Axial pin or cavity index

k

Material component k; this can also be cladding or structure

l

Dummy index

liq

Liquidus

ls

Lower slug

m

m = 1 indicates upward flow, m = 2 downward flow

me

Melting, melt-in

mi

Mixture of sodium and fission gas

min

Minimum

mv

Moving

mx

Maximum

Na

Sodium

Nl

Liquid sodium

Nm

Moving sodium liquid and sodium vapor

node

Node

Nv

Sodium vapor

op

Open channel - channel volume or cross section remaining

open after plateout has occurred

or

Orifice

os

Outer surface of clad or structure of fuel film or fuel crust.

All these surfaces are facing the coolant channel.

outlet

Subassembly outlet

p

Subscript of specific heat for constant pressure

Pa

Fuel particle

pin,pi

Pin

PL

PLUTO2

power

Power

radial

Radial

rl

Dissolved fission-gas release

S’

Sink or source per unit of generalized smear volume

sol

Solidus

sonic

Sonic

sr

Structure

un

Uncompressed

us

Upper liquid sodium slug

UTS

Ultimate tensile strength

vg

Vapor and gas

vi

Viscous

x

Auxiliary subscript

z

Axial location z

zi

Designates bottom of a liquid sodium slug segment

Greek Symbols

Definition

Units

\(\alpha\)

Void fraction

\(\beta\)

Delayed neutron fraction

\(\gamma\)

Cp/Cv

\(\delta\)

Partial derivative

\(\Delta\)

Derivative in finite differences

\(\kappa\)

Compressibility

\(\pi\)

Circumference of a circle divided by its diameter

\(\rho\)

Theoretical density

\(\rho'\)

Generalize linear density

\(\sigma\)

Surface tension

\(\theta\)

Generalized volume fraction

Regular Symbols

Description

Units

A

Cross section area

A’

Interaction or surface area per unit of generalized smear volume

AFR

Input, liquid sodium friction coefficient

AFRV

Input, sodium vapor friction coefficient

AHELP

Auxiliary quantity in momentum conservation

AMIIN

Auxiliary quantity in momentum conservation

ARCH

Cross section area of coolant channel per pin

ARCL

Cladding surface area per unit of generalized smear

volume

AREA

Area

ARFF

Cross section area of plated-out fuel pin

ARMF

Cross section area of moving fuel per pin

ARSR

Structure surface area per unit of generalized smear

volume

AXMX

Input, reference cross section area; recommended input

value is subassembly cross section area

BFR

Input, exponent of liquid friction coefficient

BFRV

Input, exponent of vapor friction coefficient

BHELP

Auxiliary quantity in the momentum equation

BMIIN

Auxiliary quantity in the momentum equation

C

Specific heat

CDFU

Input, fuel conductivity

CDNL

Input, liquid sodium conductivity

CDVG

Input, conductivity of sodium vapor

CFCOFV

Input, fuel vapor condensation coefficient

CFFFCL

Fraction of channel perimeter covered by plated-out fuel

CFFRMF

Friction coefficient for annular fuel

CFFUCL

Fraction of cladding and structure covered by moving or plated-out fuel

CFMELT

Fraction of frozen fuel remelting per PLUTO2 time step

CFMFCL

Fraction of channel perimeter covered by moving fuel

CFMFFF

Fraction of plated-out fuel covered by moving fuel

CFNACL

Fraction of channel perimeter that is in contact with sodium

CFNACN

Input, sodium vapor condensation coefficient

J/(m2·s·K)

CFNAEV

Input, sodium evaporation coefficient

J/(m2·s·K)

CIANIN

Input, determines when a complete annular fuel flow begins

CIA1

Input, constant in the fuel particle-to-sodium heat transfer

CIA2

Input, constant in the fuel particle-to-sodium heat transfer

CIA3

Input, constant in the Deissler heat-transfer correlation

CIA4

Input, controls range of interpolation between boiling

heat transfer coefficient and single-phase gas heat-transfer

coefficient

CIA5

Input, controls drag dependence in void fraction in the

particulate flow regime

CIA6

Input, controls drag in the bubbly flow regime

CIBBIN

Input, controlling onset of bubbly flow regime

CIETFU

Input, controls effect of fuel particles on sodium film entrainment

CIFRFU

Input, part of the fuel friction calculation

CIFUFZ

Input, controls mode of fuel freezing

CIFUMO

Input, controls axial fuel momentum low on ejection from pin

CINAFO

Input, initial and maximum sodium film fraction

CIREFU

Input, Reynolds number above which fully turbulent fuel flow is assumed for friction calculation

CIRTFS

Input, controls dissolved gas release

1/s

CIVOID

Input, controls liquid sodium fraction below which single-phase heat-transfer and friction laws are used

CMFU

Input, liquid fuel compressibility

1/Pa

CMNL

Input, liquid sodium compressibility

1/Pa

COFICH

Convective fission-gas mass flux in coolant channel

kg/(s·m2)

COFUCH

Convective fuel mass flux in coolant channel

kg/(s·m2)

COFUOS

Convective fuel energy flux in the channel

J/(s·m2)

CONACH

Convective sodium mass flux in coolant channel

kg/(s·m2)

CPFU

Input, fuel heat capacity

J/(s·m2)

CTFRFU

Fraction of the moving fuel that is in contact with clad or plated-out fuel

C1

Input, part of liquid sodium heat-transfer correlation

C2

Input, part of liquid sodium heat-transfer correlation

C3

Input, part of liquid sodium heat-transfer correlation

C1VIPR

Input, used for the artificial viscous pressure calculation in the pin

C2VIPR

Input, used for the artificial viscous pressure calculation in the pin

D

Diameter, hydraulic diameter

m

DEFICH

Generalized smear density of free fission gas in the coolant channel

kg/m3

DEFUCH

Generalized smear density of the moving fuel in the coolant channel

kg/m3

DEFVCH

Generalized smear density of fuel vapor in the coolant channel

kg/m3

DENACH

Generalized smear density of sodium in the coolant channel

kg/m3

DENMCH

Generalized smear density of moving sodium in the coolant channel

kg/m3

DZPLIN

Input, minimum length of a Lagrangian edge cell

m

e

Internal energy

J/kg

EGBBLY

Input, internal fuel energy below which fuel freezing begins

J/kg

EGFULQ

Input, internal fuel energy at the solidus

J/kg

EGFUSO

Input, internal fuel energy at the solidus

J/kg

EGMN

Input, internal fuel energy below which fuel cannot switch

from the particulate to a continuous flow regime

J/kg

EPCH

Input, controls use of advanced pressure in in-pin calculation

f

Factor used in interphase drag term

F

Friction factor

FF

Mass of fuel ejected per time step and per unit of generalized

smear volume

kg/m2

FIFNGB

Input, fraction of fission gas on grain boundaries which becomes available as free gas upon fuel melting

FNARME

Input, cross section area of pin cavity/cross section area of fuel

above which failure of this node is allowed to occur

FNFUAN

Input, controls when annular fuel flow in molten pin cavity is

assumed

FNMECA

Fraction of node width of radial heat-transfer node on cavity boundaries which melts in pure PLUTO2 time step

FNMELT

Input, controls locus of cavity boundary

FNPI

Fraction of all the pins in a subassembly which have failed

FNPOHE

Relative power level

FN

Fraction of the molten fuel in a ejection cell which is ejected

per PLUTO2 time step

FUELMS

Initial fuel mass in a radial fuel-pin mode

kg

FUMASS

Initial total fuel mass in an axial fuel node

kg

FUMS

Current fuel mass in the radial fuel pin node on the cavity

boundary

kg

F.R. 1

Particulate fuel flow regime

F.R. 3

Partially or fully annular flow regime

F.R. 4

Bubbly fuel flow regime

g

Gravity

m/s2

GAMSS

Input, fraction of power going into direct heating of structure

GAMTNC

Input, fraction of power going into direct heating of coolant

GAMTNE

Input, fraction of power going into direct heating of cladding

h

Heat-transfer coefficient

J/(m2·s·K)

H

Heat-transfer coefficient times heat-transfer area

J/(s·K)

HCCLMI

Input, heat-transfer coefficient between hot cladding and a

two-phase sodium/gas mixture

J/(m2·s·K)

HCFFMI

Input, heat-transfer coefficient between frozen fuel crust surface and two-phase sodium/gas mixture

J/(m2·s·K)

HCFUBB

Input, heat-transfer coefficient between the interior of the molten fuel and bubble surface

J/(m2·s·K)

h1

Auxiliary heat-transfer coefficient

J/(m2·s·K)

h2

Auxiliary heat-transfer coefficients

J/(m2·s·K)

I

Axial node index in coolant channel

IB

Channel zone in which the uppermost segment of the lower

slug is located

IDIFF

Offset between pin and channel grid. The first pin node is

at the same elevation as channel node IDIFF + 1

IFLAG

Pointer array which gives the flow regime number for each

axial channel node

IMAX

Uppermost slug segment of upper sodium slug

IT

Channel zone in which the lowermost segment of the upper

slug is located

k

Conductivity

J/(m·s·K)

K

Axial index in the pin

KKMX

Uppermost node in the molten pin cavity

KZPIN

Coolant channel zone which contains the fuel pins

KK1

Lowermost node in the molten pin cavity

L

Length

m

L1

Length of the Lagrangian node at one end of the

interaction region

m

L2

Length of Lagrangian node at the other end of

the interaction region

m

N’

Number per unit of generalized smear volume

NCPLEV

Input, number of cladding nodes which have to be molten in to lead to switch to LEVITATE

NGRDSP

Input, number of grid spacers in the channel zone containing fuel pins

NRPI

Number of pins per subassembly

NT

Number of radial fuel pin nodes

Nu

Nusselt number

P

Pressure

Pa

PECH

Perimeter of the coolant channel associated with one pin

M

PORFR

Porosity fraction

POW

Input, power in highest rated axial fuel pin node

W

POWCOF

Exponent in the exponential function which give the power history during main time step

PRFAIL

Input, failure pressure for non-mechanistic clad failure

Propagation

Pa

Pr

Prandtl number

PSHAPE

Input, axial pin power shape

PSHAPR

Input, radial power shape in a pin

Q

Fission heat source

W/kg

r

Radius

M

R

Gas constant or radius

J/(kg·K)

RAFPLA

Input, radius of large particles

m

RAFPSM

Input, radius of small particles (which have been generated due to the decay of the larger particles after TIFP seconds)

kg

RETFG2

Retained fission-gas mass in the original radial fuel-pin node at the cavity boundary before it began melting into the cavity

Re

Reynold’s number

RGAS

Input, gas constant for fission gas

J/(kg·K)

RGNA

Sodium vapor gas constant which is a calculated quantity in

PLUTO2

J/(kg·K)

S

Mass sink or source

kg/s

S’

Mass sink or source per unit of generalized smear volume

kg/(s·m3)

St

Stanton number

t

Time

s

T

Temperature

K

TECLMN

Input, cladding temperature above which frozen fuel will not stick to the cladding

K

TECLRL

Input, cladding temperature above which the frozen fuel crust will be released

K

TEFAIL

Input, cladding failure temperature in nonmechanistic failure criteria

K

TESOL

Input, steel solidus temperature

K

TIFP

Input, time delay for fragmentation of large particles into

small ones

s

TKFF

Thickness of frozen fuel crust

m

u

Velocity

m/s

UFCH

Fuel velocity in the channel

m/s

UMCH

Sodium/gas mixture velocity in the channel

m/s

VCONST

Auxiliary quantity in the sodium film entrainment calculation

VFNALQ

Input, liquid sodium fraction below which a particulate flow regime can become a continuous one

VFNARE

Input, liquid sodium fraction below which a particular flow regime can become a continuous one

VIFG

Input, viscosity of sodium vapor

kg/(m·s)

VIFULQ

Input, viscosity of liquid sodium

kg/(m·s)

VOLUME

Volume

m3

w

Width

m

W

Mass flow rate

kg/s

x

Sodium quality

XKORGD

Input, orifice coefficient of a single grid spacer

XKORV

Input, expansion, contraction, or orifice coefficient

z

Axial coordinate

m