CADETProcess.processModel.discretization.LRMPDiscretizationFV#
- class CADETProcess.processModel.discretization.LRMPDiscretizationFV(ncol, par_geom, use_analytic_jacobian, reconstruction, gs_type, max_krylov, max_restarts, schur_safety)[source]#
Discretization parameters of the FV version of the LRMP.
See also
CADETProcess.processModel.LRMPDiscretizationDGCADETProcess.processModel.LumpedRateModelWithPores
- Attributes:
- ncolUnsignedInteger, optional
Number of axial column discretization cells. Default is 100.
- par_geomSwitch, optional
The geometry of the particles in the model. Valid values are ‘SPHERE’, ‘CYLINDER’, and ‘SLAB’. Default is ‘SPHERE’.
- use_analytic_jacobianBool, optional
If True, use analytically computed Jacobian matrix (faster). If False, use Jacobians generated by algorithmic differentiation (slower). Default is True.
- reconstructionSwitch, optional
Method for spatial reconstruction. Valid values are ‘WENO’ (Weighted Essentially Non-Oscillatory). Default is ‘WENO’.
- gs_typeBool, optional
Type of Gram-Schmidt orthogonalization. If 0, use classical Gram-Schmidt. If 1, use modified Gram-Schmidt. The default is 1.
- max_krylovUnsignedInteger, optional
Size of the Krylov subspace in the iterative linear GMRES solver. If 0, max_krylov = NCOL * NCOMP * NPARTYPE is used. The default is 0.
- max_restartsUnsignedInteger, optional
Maximum number of restarts to use for the GMRES method. Default is 10.
- schur_safetyUnsignedFloat, optional
Safety factor for the Schur complement solver. Default is 1.0e-8.
Methods
Verify if all required parameters are set.