Description
This model uses
- d3q27 cumulant collision kernel for hydrodynamics
- d3q7 cascaded collision kernel for heat
- Boussinesq approx to couple heat with hydrodynamics
BC
- periodic
- Dirichlet - Equilibrium scheme (1st order convergence)
- Dirichlet - Anti Bounce Back (2nd order convergence)
- Dirichlet - Interpolated Anti Bounce Back (2nd order convergence)
-
Neumann like bc - impose heat flux
-
WVelocity inlet
- EPressure Outlet
- Neumann Outlet
- Convective Outlet
Details
Model description files files for this model: Dynamics.c Dynamics.R
Zonal Settings
| Name | Comment |
|---|---|
VelocityX |
inlet/outlet/init x-velocity component |
VelocityY |
inlet/outlet/init y-velocity component |
VelocityZ |
inlet/outlet/init z-velocity component |
Pressure |
inlet/outlet/init pressure |
InitTemperature |
Initial/Inflow temperature distribution |
InitHeatFlux |
Initial/Inflow heat flux through boundary |
conductivity |
thermal conductivity of fluid (W/(m·K)) |
material_density |
density of material [kg/m3] |
cp |
specific heat capacity at constant pressure of fluid (J/(kg·K)) |
Sigma_GH |
Initial width of the Gaussian Hill |
FDragInObj |
Weight of [Force exerted on body in X-direction] in objective |
FLateralInObj |
Weight of [Force exerted on body in Y-direction] in objective |
FLiftInObj |
Weight of [Force exerted on body in Z-direction] in objective |
XHydroFLuxInObj |
Weight of [Momentum flux in X-direction] in objective |
YHydroFLuxInObj |
Weight of [Momentum flux in Y-direction] in objective |
ZHydroFLuxInObj |
Weight of [Momentum flux in Z-direction] in objective |
XHydroFLux2InObj |
Weight of [Momentum flux (2nd logger) in X-direction] in objective |
YHydroFLux2InObj |
Weight of [Momentum flux (2nd logger) in Y-direction] in objective |
ZHydroFLux2InObj |
Weight of [Momentum flux (2nd logger) in Z-direction] in objective |
HeatFluxXInObj |
Weight of [Heat flux in X-direction] in objective |
HeatFluxYInObj |
Weight of [Heat flux in Y-direction] in objective |
HeatFluxZInObj |
Weight of [Heat flux in Z-direction] in objective |
HeatFluxX2InObj |
Weight of [Heat flux (2nd logger) in X-direction] in objective |
HeatFluxY2InObj |
Weight of [Heat flux (2nd logger) in Y-direction] in objective |
HeatFluxZ2InObj |
Weight of [Heat flux (2nd logger) in Z-direction] in objective |
HeatSourceInObj |
Weight of [Total Heat flux from body] in objective |
Global Settings
| Name | Derived | Comment |
|---|---|---|
GravitationX |
applied rho*GravitationX | |
GravitationY |
applied rho*GravitationY | |
GravitationZ |
applied rho*GravitationZ | |
nu |
kinematic viscosity | |
GalileanCorrection |
Galilean correction term | |
nu_buffer |
kinematic viscosity in the buffer layer | |
conductivity_buffer |
thermal conductivity in the buffer layer | |
Omegafor3rdCumulants |
relaxation rate for 3rd order cumulants | |
h_stability_enhancement |
magic stability enhancement | |
BoussinesqCoeff |
BoussinesqCoeff=rho_0*thermal_exp_coeff | |
CylinderCenterX |
X coord of cylinder with imposed heat flux | |
CylinderCenterY |
Y coord of cylinder with imposed heat flux | |
CylinderCenterX_GH |
X coord of Gaussian Hill | |
CylinderCenterY_GH |
Y coord of Gaussian Hill | |
Smag |
Smagorinsky coefficient for SGS modeling | |
Threshold |
Parameters threshold |
Exported Quantities (VTK, etc)
| Name | Unit | Comment |
|---|---|---|
Rho |
kg/m3 |
Rho |
U |
m/s |
U |
H |
J |
H |
T |
K |
T |
m00_F |
1 |
m00_F |
material_density |
kg/m3 |
material_density |
cp |
J/kg/K |
cp |
conductivity |
W/m/K |
conductivity |
RawU |
m/s |
RawU |
KinE |
1 |
Turbulent kinetic energy |
ReStr |
1 |
Reynolds stress off-diagonal component |
Dissipation |
1 |
Dissipation e |
averageU |
m/s |
averageU |
varU |
1 |
varU |
averageP |
Pa |
averageP |
averageT |
K |
averageT |
Exported Global Integrals (CSV, etc)
| Name | Unit | Comment |
|---|---|---|
FDrag |
N |
Force exerted on body in X-direction |
FLateral |
N |
Force exerted on body in Y-direction |
FLift |
N |
Force exerted on body in Z-direction |
XHydroFLux |
kg/s |
Momentum flux in X-direction |
YHydroFLux |
kg/s |
Momentum flux in Y-direction |
ZHydroFLux |
kg/s |
Momentum flux in Z-direction |
XHydroFLux2 |
kg/s |
Momentum flux (2nd logger) in X-direction |
YHydroFLux2 |
kg/s |
Momentum flux (2nd logger) in Y-direction |
ZHydroFLux2 |
kg/s |
Momentum flux (2nd logger) in Z-direction |
HeatFluxX |
W |
Heat flux in X-direction |
HeatFluxY |
W |
Heat flux in Y-direction |
HeatFluxZ |
W |
Heat flux in Z-direction |
HeatFluxX2 |
W |
Heat flux (2nd logger) in X-direction |
HeatFluxY2 |
W |
Heat flux (2nd logger) in Y-direction |
HeatFluxZ2 |
W |
Heat flux (2nd logger) in Z-direction |
HeatSource |
W |
Total Heat flux from body |
Objective |
1 |
Objective function |
Node Types
| Group | Types |
|---|---|
| ADDITIONALS | DarcySolid, Smoothing |
| ADDITIONALS_HEAT | HeaterDirichletTemperatureEQ, HeaterDirichletTemperatureABB, HeaterSource, HeaterNeumannHeatFluxCylinder, HeaterNeumannHeatFluxEast |
| BODY | Body |
| BOUNDARY | ENeumann, EPressure, EVelocity, Solid, Wall, WPressure, WVelocity |
| COLLISION | CM, CM_NONLINEAR, BGK |
| HO_BOUNDARY_HEAT | HeaterDirichletTemperatureIABB, ThermalIBB |
| HO_BOUNDARY_HYDRO | HydroIBB |
| OBJECTIVEFLUX | FluxMeasurmentZone1, FluxMeasurmentZone2 |
| OBJECTIVEFORCE | ForceMeasurmentZone |
| SETTINGZONE | DefaultZone |
Solved fields
| Name | Access pattern | Comment |
|---|---|---|
f000 |
 |
flow LB density F 0 |
f100 |
 |
flow LB density F 1 |
f200 |
 |
flow LB density F 2 |
f010 |
 |
flow LB density F 3 |
f110 |
 |
flow LB density F 4 |
f210 |
 |
flow LB density F 5 |
f020 |
 |
flow LB density F 6 |
f120 |
 |
flow LB density F 7 |
f220 |
 |
flow LB density F 8 |
f001 |
 |
flow LB density F 9 |
f101 |
 |
flow LB density F 10 |
f201 |
 |
flow LB density F 11 |
f011 |
 |
flow LB density F 12 |
f111 |
 |
flow LB density F 13 |
f211 |
 |
flow LB density F 14 |
f021 |
 |
flow LB density F 15 |
f121 |
 |
flow LB density F 16 |
f221 |
 |
flow LB density F 17 |
f002 |
 |
flow LB density F 18 |
f102 |
 |
flow LB density F 19 |
f202 |
 |
flow LB density F 20 |
f012 |
 |
flow LB density F 21 |
f112 |
 |
flow LB density F 22 |
f212 |
 |
flow LB density F 23 |
f022 |
 |
flow LB density F 24 |
f122 |
 |
flow LB density F 25 |
f222 |
 |
flow LB density F 26 |
h000 |
|
heat LB density H 0 |
h100 |
|
heat LB density H 1 |
h200 |
|
heat LB density H 2 |
h010 |
|
heat LB density H 3 |
h020 |
|
heat LB density H 4 |
h001 |
|
heat LB density H 5 |
h002 |
|
heat LB density H 6 |
U |
|
U |
avgT |
 |
avgT |
avgP |
|
avgP |
varUX |
|
varUX |
varUY |
|
varUY |
varUZ |
|
varUZ |
varUXUY |
|
varUXUY |
varUXUZ |
|
varUXUZ |
varUYUZ |
|
varUYUZ |
avgdxu2 |
|
avgdxu2 |
avgdyv2 |
|
avgdyv2 |
avgdzw2 |
|
avgdzw2 |
avgUX |
 |
avgUX |
avgUY |
 |
avgUY |
avgUZ |
 |
avgUZ |
Densities - default accessors
| Name | Field | Pulling field from | Comment |
|---|---|---|---|
f000 |
f000 | |
flow LB density F 0 |
f100 |
f100 |  |
flow LB density F 1 |
f200 |
f200 |  |
flow LB density F 2 |
f010 |
f010 |  |
flow LB density F 3 |
f110 |
f110 |  |
flow LB density F 4 |
f210 |
f210 |  |
flow LB density F 5 |
f020 |
f020 |  |
flow LB density F 6 |
f120 |
f120 |  |
flow LB density F 7 |
f220 |
f220 |  |
flow LB density F 8 |
f001 |
f001 |  |
flow LB density F 9 |
f101 |
f101 |  |
flow LB density F 10 |
f201 |
f201 |  |
flow LB density F 11 |
f011 |
f011 |  |
flow LB density F 12 |
f111 |
f111 |  |
flow LB density F 13 |
f211 |
f211 |  |
flow LB density F 14 |
f021 |
f021 |  |
flow LB density F 15 |
f121 |
f121 |  |
flow LB density F 16 |
f221 |
f221 |  |
flow LB density F 17 |
f002 |
f002 |  |
flow LB density F 18 |
f102 |
f102 |  |
flow LB density F 19 |
f202 |
f202 |  |
flow LB density F 20 |
f012 |
f012 |  |
flow LB density F 21 |
f112 |
f112 |  |
flow LB density F 22 |
f212 |
f212 |  |
flow LB density F 23 |
f022 |
f022 |  |
flow LB density F 24 |
f122 |
f122 |  |
flow LB density F 25 |
f222 |
f222 |  |
flow LB density F 26 |
h000 |
h000 | |
heat LB density H 0 |
h100 |
h100 | |
heat LB density H 1 |
h200 |
h200 | |
heat LB density H 2 |
h010 |
h010 | |
heat LB density H 3 |
h020 |
h020 | |
heat LB density H 4 |
h001 |
h001 | |
heat LB density H 5 |
h002 |
h002 | |
heat LB density H 6 |
U |
U | |
U |
avgT |
avgT | |
avgT |
avgP |
avgP | |
avgP |
varUX |
varUX | |
varUX |
varUY |
varUY | |
varUY |
varUZ |
varUZ | |
varUZ |
varUXUY |
varUXUY | |
varUXUY |
varUXUZ |
varUXUZ | |
varUXUZ |
varUYUZ |
varUYUZ | |
varUYUZ |
avgdxu2 |
avgdxu2 | |
avgdxu2 |
avgdyv2 |
avgdyv2 | |
avgdyv2 |
avgdzw2 |
avgdzw2 | |
avgdzw2 |
avgUX |
avgUX | |
avgUX |
avgUY |
avgUY | |
avgUY |
avgUZ |
avgUZ | |
avgUZ |
Action stages
| Name | Main procedure | Preloaded densities | Pushed fields |
|---|---|---|---|
| BaseIteration | Run | f000, f100, f200, f010, f110, f210, f020, f120, f220, f001, f101, f201, f011, f111, f211, f021, f121, f221, f002, f102, f202, f012, f112, f212, f022, f122, f222, h000, h100, h200, h010, h020, h001, h002, U, avgT, avgP, varUX, varUY, varUZ, varUXUY, varUXUZ, varUYUZ, avgdxu2, avgdyv2, avgdzw2, avgUX, avgUY, avgUZ | f000, f100, f200, f010, f110, f210, f020, f120, f220, f001, f101, f201, f011, f111, f211, f021, f121, f221, f002, f102, f202, f012, f112, f212, f022, f122, f222, h000, h100, h200, h010, h020, h001, h002, U, avgT, avgP, varUX, varUY, varUZ, varUXUY, varUXUZ, varUYUZ, avgdxu2, avgdyv2, avgdzw2, avgUX, avgUY, avgUZ |
| BaseInit | Init | none | f000, f100, f200, f010, f110, f210, f020, f120, f220, f001, f101, f201, f011, f111, f211, f021, f121, f221, f002, f102, f202, f012, f112, f212, f022, f122, f222, h000, h100, h200, h010, h020, h001, h002, U, avgT, avgP, varUX, varUY, varUZ, varUXUY, varUXUZ, varUYUZ, avgdxu2, avgdyv2, avgdzw2, avgUX, avgUY, avgUZ |
Actions
| Name | Stages |
|---|---|
| Iteration | BaseIteration |
| Init | BaseInit |