12.1.10. Numerical parameters¶
This section contains keywords for defining numerical parameters. Keywords
related to solving the governing equations (e.g., LEQ_IT
, DISCRETIZE
,
UR_FAC
, etc.) are dimensioned for the ten types of equations:
Index |
Equation Type |
---|---|
1 |
Gas Pressure |
2 |
Solids Volume Fraction |
3 |
Gas and Solids U Momentum Equation |
4 |
Gas and Solids V Momentum Equation |
5 |
Gas and Solids W Momentum Equation |
6 |
Gas and Solids Energy Equations (Temperature) |
7 |
Gas and Solids Species Mass Fractions |
8 |
Granular Temperature |
9 |
User-Defined Scalar and K-Epsilon Equation |
10 |
DES Diffusion Equation |
For example, LEQ_IT(3) = 10
, specifies to use 10 iterations within the
linear equation solver for the U Momentum Equations (of type 3).
12.1.10.1. CHI_SCHEME¶
Data Type: LOGICAL
This scheme guarantees that the set of differenced species mass balance equations maintain the property that the sum of species mass fractions is one. This property is not guaranteed when a flux limiter is used with higher order spatial discretization schemes. Note: The chi-scheme is implemented for SMART and MUSCL discretization schemes. Darwish, M.S., Moukalled, F. (2003). Computer Methods in Applied Mech. Eng., 192(13):1711-1730.
Name |
Default? |
Description |
---|---|---|
|
◉ |
Do not use the chi-scheme. |
|
Use the chi-scheme correction. |
12.1.10.2. CN_ON¶
Data Type: LOGICAL
Temporal discretization scheme.
Name |
Default? |
Description |
---|---|---|
|
◉ |
Implicit Euler based temporal discretization scheme employed (first-order accurate in time). |
|
Two-step implicit Runge-Kutta method based temporal discretization scheme employed. This method should be second- order accurate in time excluding pressure terms and restart time step which are first-order accurate. However, as of 2015, testing shows that second-order accuracy is not observed. |
12.1.10.3. DEF_COR¶
Data Type: LOGICAL
Use deferred correction method for implementing higher order discretization.
Name |
Default? |
Description |
---|---|---|
|
◉ |
Use down-wind factor method (default). |
|
Use deferred correction method. |
12.1.10.4. DETECT_STALL¶
Data Type: LOGICAL
Reduce the time step if the residuals stop decreasing. Disabling this feature may help overcome initial non-convergence.
Name |
Default? |
Description |
---|---|---|
|
Continue iterating if residuals stall. |
|
|
◉ |
Reduce time step if residuals stall. |
12.1.10.5. DIL_EP_S¶
Data Type: DOUBLE PRECISION
Dilute flow threshold. When the volume fraction of a certain phase in a cell is smaller than this value the momentum equation for that phase is not solved in the cell. It is strongly encouraged to keep the default value of 1E-4.
12.1.10.6. DISCRETIZE(EQUATION ID NUMBER)¶
Data Type: INTEGER
\(1 \le Equation ID Number \le 10\)
Discretization scheme used to solve equations.
Name |
Default? |
Description |
---|---|---|
|
◉ |
First-order upwinding. |
|
First-order upwinding (using down-wind factors). |
|
|
Smart. |
|
|
Superbee (recommended method). |
|
|
QUICKEST (does not work). |
|
|
ULTRA-QUICK. |
|
|
van Leer. |
|
|
MUSCL. |
|
|
minmod. |
|
|
Central (often unstable; useful for testing). |
12.1.10.7. DO_TRANSPOSE¶
Data Type: LOGICAL
Solve transpose of linear system. (BICGSTAB ONLY).
12.1.10.8. EPP_DEN¶
Data Type: DOUBLE PRECISION
Denominator used to scale initial solids volume fraction correction equation residual when Norm_g=0. Default value is 10. Increase to tighten tolerance, decrease to loosen.
12.1.10.9. FPE_TRAP_INVALID¶
Data Type: LOGICAL
Terminate simulation and print stack trace on math domain errors (square root or log of negative value, etc).
12.1.10.10. FPE_TRAP_OVERFLOW¶
Data Type: LOGICAL
Terminate simulation and print stack trace on numerical overflow.
12.1.10.11. FPE_TRAP_ZERO¶
Data Type: LOGICAL
Terminate simulation and print stack trace on zero division errors.
12.1.10.12. ICHECK_BICGS¶
Data Type: INTEGER
Frequency to check for convergence. (BICGSTAB ONLY)
12.1.10.13. LEQ_IT(EQUATION ID NUMBER)¶
Data Type: INTEGER
\(1 \le Equation ID Number \le 10\)
Number of iterations in the linear equation solver.
Default value: - 20 iterations for equation types 1-2 - 5 iterations for equation types 3-5,10 - 15 iterations for equation types 6-9
12.1.10.14. LEQ_METHOD(EQUATION ID NUMBER)¶
Data Type: INTEGER
\(1 \le Equation ID Number \le 10\)
LEQ Solver selection. BiCGSTAB is the default method for all equation types.
Name |
Default? |
Description |
---|---|---|
|
SOR - Successive over-relaxation |
|
|
◉ |
BiCGSTAB - Biconjugate gradient stabilized. |
|
GMRES - Generalized minimal residual method |
|
|
CG - Conjugate gradient |
12.1.10.15. LEQ_PC(EQUATION ID NUMBER)¶
Data Type: CHARACTER
\(1 \le Equation ID Number \le 10\)
Linear preconditioner used by the BiCGSTAB and CG LEQ solvers. ‘LINE’ is the default for all equation types.
Name |
Default? |
Description |
---|---|---|
|
No preconditioner |
|
|
◉ |
Line relaxation |
|
Diagonal Scaling |
12.1.10.16. LEQ_SWEEP(EQUATION ID NUMBER)¶
Data Type: CHARACTER
\(1 \le Equation ID Number \le 10\)
Linear equation sweep direction. This applies when using GMRES or when using the LINE preconditioner with BiCGSTAB or CG methods. ‘RSRS’ is the default for all equation types.
Name |
Default? |
Description |
---|---|---|
|
◉ |
(Red/Black Sweep, Send Receive) repeated twice |
|
(Sweep in I, Send Receive) repeated twice |
|
|
(Sweep in J, Send Receive) repeated twice |
|
|
(Sweep in K, Send Receive) repeated twice |
|
|
(All Sweep, Send Receive) repeated twice |
12.1.10.17. LEQ_TOL(EQUATION ID NUMBER)¶
Data Type: DOUBLE PRECISION
\(1 \le Equation ID Number \le 10\)
Linear Equation tolerance [1.0d-4].
12.1.10.18. MAX_INLET_VEL_FAC¶
Data Type: DOUBLE PRECISION
The code declares divergence if the velocity anywhere in the domain exceeds a maximum value. This maximum value is automatically determined from the boundary values. The user may scale the maximum value by adjusting this scale factor [1.0d0].
12.1.10.19. MAX_NIT¶
Data Type: INTEGER
Maximum number of iterations [500].
12.1.10.20. NORM_G¶
Data Type: DOUBLE PRECISION
Factor to normalize the gas continuity equation residual. The residual from the first iteration is used if NORM_G is left undefined. NORM_G=0 invokes a normalization method based on the dominant term in the continuity equation. This setting may speed up calculations, especially near a steady state and for incompressible fluids. But, the number of iterations for the gas phase pressure, LEQ_IT(1), should be increased to ensure mass balance.
12.1.10.21. NORM_S¶
Data Type: DOUBLE PRECISION
Factor to normalize the solids continuity equation residual. The residual from the first iteration is used if NORM_S is left undefined. NORM_S = 0 invokes a normalization method based on the dominant term in the continuity equation. This setting may speed up calculations, especially near a steady state and incompressible fluids. But, the number of iterations for the solids volume fraction, LEQ_IT(2), should be increased to ensure mass balance.
12.1.10.22. OPT_PARALLEL¶
Data Type: LOGICAL
Sets optimal LEQ flags for parallel runs.
12.1.10.23. PPG_DEN¶
Data Type: DOUBLE PRECISION
Denominator used to scale initial fluid pressure correction equation residual when Norm_g=0. Default value is 10. Increase to tighten tolerance, decrease to loosen.
12.1.10.24. TMAX¶
Data Type: DOUBLE PRECISION
Maximum temperature allowed in the system (K). It is strongly encouraged to keep the default value of 4000.0.
12.1.10.25. TMIN¶
Data Type: DOUBLE PRECISION
Minimum temperature allowed in the system (K). It is strongly encouraged to keep the default value of 50.0.
12.1.10.26. TOL_DIVERGE¶
Data Type: DOUBLE PRECISION
Minimum residual for declaring divergence [1.0d+4]. This parameter is useful for incompressible fluid simulations because velocity residuals can take large values for the second iteration (e.g., 1e+8) before dropping down to smaller values for the third iteration.
12.1.10.27. TOL_RESID¶
Data Type: DOUBLE PRECISION
Maximum residual at convergence (continuity + momentum) [1.0d-3].
12.1.10.28. TOL_RESID_SCALAR¶
Data Type: DOUBLE PRECISION
Maximum residual at convergence (Scalar Equations) [1.0d-4].
12.1.10.29. TOL_RESID_T¶
Data Type: DOUBLE PRECISION
Maximum residual at convergence (Energy) [1.0d-4].
12.1.10.30. TOL_RESID_TH¶
Data Type: DOUBLE PRECISION
Maximum residual at convergence (Granular Energy) [1.0d-4].
12.1.10.31. TOL_RESID_X¶
Data Type: DOUBLE PRECISION
Maximum residual at convergence (Species Balance) [1.0d-4].
12.1.10.32. TOL_SUM_RESID_ABS¶
Data Type: DOUBLE PRECISION
Maximum residual at convergence (sum of all residuals) [1.0d-10]. If sum of all residuals is below this tolerance at the first inner iteration, convergence is declared. This helps run faster when steady state is reached.
12.1.10.33. UR_F_GS¶
Data Type: DOUBLE PRECISION
The implicitness calculation of the gas-solids drag coefficient may be underrelaxed by changing ur_f_gs, which takes values between 0 to 1.
0 updates F_GS every time step
1 updates F_GS every iteration
12.1.10.34. UR_FAC(EQUATION ID NUMBER)¶
Data Type: DOUBLE PRECISION
\(1 \le Equation ID Number \le 10\)
Underrelaxation factors. Default value: - 0.8 for equation types 1,9 - 0.5 for equation types 2,3,4,5,8 - 1.0 for equation types 6,7,10
12.1.10.35. UR_KTH_SML¶
Data Type: DOUBLE PRECISION
Underrelaxation factor for conductivity coefficient associated with other solids phases for IA Theory [1.0].
12.1.10.36. USE_DOLOOP¶
Data Type: LOGICAL
Use do-loop assignment over direct vector assignment.
12.1.10.37. ZERO_EP_S¶
Data Type: DOUBLE PRECISION
Minimum value of solids volume fraction tracked. It is strongly encouraged to keep the default value of 1E-8.
12.1.10.38. ZERO_X_GS¶
Data Type: DOUBLE PRECISION
Small value for species mass fraction for disregarding residual calculation. It is strongly encouraged to keep the default value of 1E-7.