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Two dimensional general rate model¶
UNIT_TYPE
Specifies the type of unit operation model
Type: string
Range: \(\texttt{GENERAL_RATE_MODEL_2D}\)
Length: 1
NCOMP
Number of chemical components in the chromatographic medium
Type: int
Range: \(\geq 1\)
Length: 1
ADSORPTION_MODEL
Specifies the type of binding model of each particle type (or of all particle types if length is 1)
Type: string
Range: See Section Binding models
Length: \(1 / \texttt{NPARTYPE}\)
ADSORPTION_MODEL_MULTIPLEX
Multiplexing mode of \(\texttt{ADSORPTION_MODEL}\). If set to 0, each particle type has a different binding model and the length of \(\texttt{ADSORPTION_MODEL}\) is \(\texttt{NPARTYPE}\). If set to 1, all particle types share the same binding model and the length of \(\texttt{ADSORPTION_MODEL}\) is 1. This field is optional and inferred from the length of \(\texttt{ADSORPTION_MODEL}\) if left out.
Type: int
Range: \(\{0, 1\}\)
Length: 1
REACTION_MODEL_BULK
Specifies the type of reaction model of the bulk volume. The model is configured in the subgroup \(\texttt{reaction_bulk}\).
Type: string
Range: See Section Reaction models
Length: 1
REACTION_MODEL_PARTICLES
Specifies the type of reaction model of each particle type (or of all particle types if length is 1). The model is configured in the subgroup \(\texttt{reaction_particle}\), or \(\texttt{reaction_particle_XXX}\) in case of disabled multiplexing.
Type: string
Range: See Section Reaction models
Length: \(1 / \texttt{NPARTYPE}\)
REACTION_MODEL_PARTICLES_MULTIPLEX
Multiplexing mode of \(\texttt{REACTION_MODEL_PARTICLES}\). If set to 0, each particle type has a different reaction model and the length of \(\texttt{REACTION_MODEL_PARTICLES}\) is \(\texttt{NPARTYPE}\). If set to 1, all particle types share the same reaction model and the length of \(\texttt{REACTION_MODEL_PARTICLES}\) is 1. This field is optional and inferred from the length of \(\texttt{REACTION_MODEL_PARTICLES}\) if left out.
Type: int
Range: \(\{0, 1\}\)
Length: 1
INIT_C
Initial concentrations for each component in all radial zones the bulk mobile phase (length \(\texttt{NCOMP}\)), or for each component in each radial zone (length \(\texttt{NCOMP} \cdot \texttt{NRAD}\), ordering radial-major)
Unit: \(\mathrm{mol}\,\mathrm{m}_{\mathrm{IV}}^{-3}\)
Type: double
Range: \(\geq 0\)
Length: \(\texttt{NCOMP} / \texttt{NCOMP} \cdot \texttt{NRAD}\)
INIT_CP
Initial concentrations for each component in the bead liquid phase (optional, \(\texttt{INIT_C}\) is used if left out). The length of this field can be \(\texttt{NCOMP}\) (same values for each radial zone and particle type), \(\texttt{NPARTYPE} \cdot \texttt{NCOMP}\) (same values for each radial zone), \(\texttt{RAD} \cdot \texttt{NCOMP}\) (same values for each particle type), or \(\texttt{NRAD} \cdot \texttt{NPARTYPE} \cdot \texttt{NCOMP}\). The ordering is radial-type-major. Values for each particle type can only be given when \(\texttt{ADSORPTION_MODEL_MULTIPLEX}\) is 0. In the radial-inhomogeneous case, the \(\texttt{SENS_REACTION}\) field is used for indexing the radial zone when specifying parameter sensitivities.
Unit: \(\mathrm{mol}\,\mathrm{m}_{\mathrm{MP}}^{-3}\)
Type: double
Range: \(\geq 0\)
INIT_Q
Initial concentrations for each bound state of each component in the bead solid phase. If \(\texttt{ADSORPTION_MODEL_MULTIPLEX}\) is 0, values for each particle type are required in type-component-major ordering (length is \(\texttt{NTOTALBND}\)). If \(\texttt{ADSORPTION_MODEL_MULTIPLEX}\) is 1, values for one particle type are required in component-major ordering (length is \(\sum_{i = 0}^{\texttt{NCOMP} - 1} \texttt{NBND}_i\)). Alternatively, values for each radial zone can be supplied. If \(\texttt{ADSORPTION_MODEL_MULTIPLEX}\) is 0, values for each radial zone and each particle type are required in radial-type-component-major ordering (length is \(\texttt{NRAD} \cdot \texttt{NTOTALBND}\)). If \(\texttt{ADSORPTION_MODEL_MULTIPLEX}\) is 1, values for each radial zone and all particle types are required in radial-component-major ordering (length is \(\texttt{NRAD} \cdot \sum_{i = 0}^{\texttt{NCOMP} - 1} \texttt{NBND}_i\)). In the radial-inhomogeneous case, the \(\texttt{SENS_REACTION}\) field is used for indexing the radial zone when specifying parameter sensitivities.
Unit: \(\mathrm{mol}\,\mathrm{m}_{\mathrm{SP}}^{-3}\)
Type: double
Range: \(\geq 0\)
INIT_STATE
Full state vector for initialization (optional, \(\texttt{INIT_C}\), \(\texttt{INIT_CP}\), and \(\texttt{INIT_Q}\) will be ignored; if length is \(2\texttt{NDOF}\), then the second half is used for time derivatives)
Unit: \(various\)
Type: double
Range: \(\mathbb{R}\)
Length: \(\texttt{NDOF} / 2\texttt{NDOF}\)
COL_DISPERSION
Axial dispersion coefficient. In case of a spatially inhomogeneous setting, the \(\texttt{SENS_PARTYPE}\) field is used for indexing the radial zone when specifying parameter sensitivities.
Unit: \(\mathrm{m}_{\mathrm{IV}}^{2}\,\mathrm{s}^{-1}\)
Type: double
Range: \(\geq 0\)
Length: see \(\texttt{COL_DISPERSION_MULTIPLEX}\)
COL_DISPERSION_MULTIPLEX
Multiplexing mode of \(\texttt{COL_DISPERSION}\). Determines whether \(\texttt{COL_DISPERSION}\) is treated as component-, radial-, and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{COL_DISPERSION}\). Valid modes are:
Component-independent, radial-independent, section-independent; length of \(\texttt{COL_DISPERSION}\) is 1
Component-independent, radial-dependent, section-independent; length of \(\texttt{COL_DISPERSION}\) is \(\texttt{NRAD}\)
Component-dependent, radial-independent, section-independent; length of \(\texttt{COL_DISPERSION}\) is \(\texttt{NCOMP}\)
Component-dependent, radial-dependent, section-independent; length of \(\texttt{COL_DISPERSION}\) is \(\texttt{NCOMP} \cdot \texttt{NRAD}\); ordering is radial-major
Component-independent, radial-independent, section-dependent; length of \(\texttt{COL_DISPERSION}\) is \(\texttt{NSEC}\)
Component-independent, radial-dependent, section-dependent; length of \(\texttt{COL_DISPERSION}\) is \(\texttt{NRAD} \cdot \texttt{NSEC}\); ordering is section-major
Component-dependent, radial-independent, section-independent; length of \(\texttt{COL_DISPERSION}\) is \(\texttt{NCOMP} \cdot \texttt{NSEC}\); ordering is section-major
Component-dependent, radial-dependent, section-dependent; length of \(\texttt{COL_DISPERSION}\) is \(\texttt{NCOMP} \cdot \texttt{NRAD} \cdot \texttt{NSEC}\); ordering is section-radial-major
Type: int
Range: \(\{0, \dots, 7 \}\)
Length: 1
COL_DISPERSION_RADIAL
Radial dispersion coefficient. In case of a spatially inhomogeneous setting, the \(\texttt{SENS_PARTYPE}\) field is used for indexing the radial zone when specifying parameter sensitivities.
Unit: \(\mathrm{m}_{\mathrm{IV}}^{2}\,\mathrm{s}^{-1}\)
Type: double
Range: \(\geq 0\)
Length: see \(\texttt{COL_DISPERSION_RADIAL_MULTIPLEX}\)
COL_DISPERSION_RADIAL_MULTIPLEX
Multiplexing mode of \(\texttt{COL_DISPERSION_RADIAL}\). Determines whether \(\texttt{COL_DISPERSION_RADIAL}\) is treated as component-, radial-, and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{COL_DISPERSION_RADIAL}\). Valid modes are:
Component-independent, radial-independent, section-independent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is 1
Component-independent, radial-dependent, section-independent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is \(\texttt{NRAD}\)
Component-dependent, radial-independent, section-independent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is \(\texttt{NCOMP}\)
Component-dependent, radial-dependent, section-independent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is \(\texttt{NCOMP} \cdot \texttt{NRAD}\); ordering is radial-major
Component-independent, radial-independent, section-dependent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is \(\texttt{NSEC}\)
Component-independent, radial-dependent, section-dependent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is \(\texttt{NRAD} \cdot \texttt{NSEC}\); ordering is section-major
Component-dependent, radial-independent, section-independent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is \(\texttt{NCOMP} \cdot \texttt{NSEC}\); ordering is section-major
Component-dependent, radial-dependent, section-dependent; length of \(\texttt{COL_DISPERSION_RADIAL}\) is \(\texttt{NCOMP} \cdot \texttt{NRAD} \cdot \texttt{NSEC}\); ordering is section-radial-major
Type: int
Range: \(\{0, \dots, 7 \}\)
Length: 1
COL_LENGTH
Column length
Unit: \(\mathrm{m}\)
Type: double
Range: \(> 0\)
Length: 1
COL_RADIUS
Column radius
Unit: \(\mathrm{m}\)
Type: double
Range: \(> 0\)
Length: 1
COL_POROSITY
Column porosity, either constant (length is 1) or for each radial zone (length is \(\texttt{NRAD}\)). In case of a spatially inhomogeneous setting, the \(\texttt{SENS_PARTYPE}\) field is used for indexing the radial zone when specifying parameter sensitivities.
Type: double
Range: \((0,1]\)
Length: \(1 / \texttt{NRAD}\)
FILM_DIFFUSION
Film diffusion coefficients for each component of each particle type
Unit: \(\mathrm{m}\,\mathrm{s}^{-1}\)
Type: double
Range: \(\geq 0\)
Length: see \(\texttt{FILM_DIFFUSION_MULTIPLEX}\)
FILM_DIFFUSION_MULTIPLEX
Multiplexing mode of \(\texttt{FILM_DIFFUSION}\). Determines whether \(\texttt{FILM_DIFFUSION}\) is treated as component-, type-, and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{FILM_DIFFUSION}\). Valid modes are:
Component-dependent, type-independent, section-independent; length of \(\texttt{FILM_DIFFUSION}\) is \(\texttt{NCOMP}\)
Component-dependent, type-independent, section-dependent; length of \(\texttt{FILM_DIFFUSION}\) is \(\texttt{NCOMP} \cdot \texttt{NSEC}\); ordering is section-major
Component-dependent, type-dependent, section-independent; length of \(\texttt{FILM_DIFFUSION}\) is \(\texttt{NCOMP} \cdot \texttt{NPARTYPE}\); ordering is type-major
Component-dependent, type-dependent, section-dependent; length of \(\texttt{FILM_DIFFUSION}\) is \(\texttt{NCOMP} \cdot \texttt{NPARTYPE} \cdot \texttt{NSEC}\); ordering is section-type-major
Type: int
Range: \(\{0, \dots, 3 \}\)
Length: 1
PAR_POROSITY
Particle porosity of all particle types or for each particle type
Type: double
Range: \((0,1]\)
Length: \(1 / \texttt{NPARTYPE}\)
PAR_RADIUS
Particle radius of all particle types or for each particle type
Unit: \(\mathrm{m}\)
Type: double
Range: \(>0\)
Length: \(1 / \texttt{NPARTYPE}\)
PAR_CORERADIUS
Particle core radius of all particle types or for each particle type (optional, defaults to \(0~m\))
Unit: \(\mathrm{m}\)
Type: double
Range: \([0, \texttt{PAR_RADIUS})\)
Length: \(1 / \texttt{NPARTYPE}\)
PORE_ACCESSIBILITY
Pore accessibility factor of each component in each particle type (optional, defaults to 1). Note: Should not be used in combination with any binding model!
Type: double
Range: \((0, 1]\)
Length: see \(\texttt{PORE_ACCESSIBILITY_MULTIPLEX}\)
PORE_ACCESSIBILITY_MULTIPLEX
Multiplexing mode of \(\texttt{PORE_ACCESSIBILITY}\). Determines whether \(\texttt{PORE_ACCESSIBILITY}\) is treated as component-, type-, and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{PORE_ACCESSIBILITY}\). Valid modes are:
Component-dependent, type-independent, section-independent; length of \(\texttt{PORE_ACCESSIBILITY}\) is \(\texttt{NCOMP}\)
Component-dependent, type-independent, section-dependent; length of \(\texttt{PORE_ACCESSIBILITY}\) is \(\texttt{NCOMP} \cdot \texttt{NSEC}\); ordering is section-major
Component-dependent, type-dependent, section-independent; length of \(\texttt{PORE_ACCESSIBILITY}\) is \(\texttt{NCOMP} \cdot \texttt{NPARTYPE}\); ordering is type-major
Component-dependent, type-dependent, section-dependent; length of \(\texttt{PORE_ACCESSIBILITY}\) is \(\texttt{NCOMP} \cdot \texttt{NPARTYPE} \cdot \texttt{NSEC}\); ordering is section-type-major
Type: int
Range: \(\{0, \dots, 3 \}\)
Length: 1
PAR_DIFFUSION
Effective particle diffusion coefficients of each component in each particle type
Unit: \(\mathrm{m}_{\mathrm{MP}}^{2}\,\mathrm{s}^{-1}\)
Type: double
Range: \(\geq 0\)
Length: see \(\texttt{PAR_DIFFUSION_MULTIPLEX}\)
PAR_DIFFUSION_MULTIPLEX
Multiplexing mode of \(\texttt{PAR_DIFFUSION}\). Determines whether \(\texttt{PAR_DIFFUSION}\) is treated as component-, type-, and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{PAR_DIFFUSION}\). Valid modes are:
Component-dependent, type-independent, section-independent; length of \(\texttt{PAR_DIFFUSION}\) is \(\texttt{NCOMP}\)
Component-dependent, type-independent, section-dependent; length of \(\texttt{PAR_DIFFUSION}\) is \(\texttt{NCOMP} \cdot \texttt{NSEC}\); ordering is section-major
Component-dependent, type-dependent, section-independent; length of \(\texttt{PAR_DIFFUSION}\) is \(\texttt{NCOMP} \cdot \texttt{NPARTYPE}\); ordering is type-major
Component-dependent, type-dependent, section-dependent; length of \(\texttt{PAR_DIFFUSION}\) is \(\texttt{NCOMP} \cdot \texttt{NPARTYPE} \cdot \texttt{NSEC}\); ordering is section-type-major
Type: int
Range: \(\{0, \dots, 3 \}\)
Length: 1
PAR_SURFDIFFUSION
Particle surface diffusion coefficients of each bound state of each component in each particle type (optional, defaults to all \(0~m_{SP}^2 s^{-1}\))
Unit: \(\mathrm{m}_{\mathrm{SP}}^{2}\,\mathrm{s}^{-1}\)
Type: double
Range: \(\geq 0\)
Length: see \(\texttt{PAR_SURFDIFFUSION_MULTIPLEX}\)
PAR_SURFDIFFUSION_MULTIPLEX
Multiplexing mode of \(\texttt{PAR_SURFDIFFUSION}\). Determines whether \(\texttt{PAR_SURFDIFFUSION}\) is treated as component-, type-, and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{PAR_SURFDIFFUSION}\). Valid modes are:
Component-dependent, type-independent, section-independent; length of \(\texttt{PAR_SURFDIFFUSION}\) is \(\texttt{NBND}\); ordering is component-major
Component-dependent, type-independent, section-dependent; length of \(\texttt{PAR_SURFDIFFUSION}\) is \(\texttt{NBND} \cdot \texttt{NSEC}\); ordering is section-component-major
Component-dependent, type-dependent, section-independent; length of \(\texttt{PAR_SURFDIFFUSION}\) is \(\texttt{NTOTALBND}\); ordering is type-component-major
Component-dependent, type-dependent, section-dependent; length of \(\texttt{PAR_SURFDIFFUSION}\) is \(\texttt{NTOTALBND} \cdot \texttt{NSEC}\); ordering is section-type-component-major
Type: int
Range: \(\{0, \dots, 3 \}\)
Length: 1
VELOCITY
Indicates flow direction in each radial zone (forward if value is positive, backward if value is negative), see Section Specification of flow rate / velocity and direction). In case of a spatially inhomogeneous setting, the \(\texttt{SENS_PARTYPE}\) field is used for indexing the radial cell when specifying parameter sensitivities.
Type: double
Range: \(\mathbb{R}\)
Length: see \(\texttt{VELOCITY_MULTIPLEX}\)
VELOCITY_MULTIPLEX
Multiplexing mode of \(\texttt{VELOCITY}\). Determines whether \(\texttt{VELOCITY}\) is treated as radial- and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{VELOCITY}\). Valid modes are:
Radial-independent, section-independent; length of \(\texttt{VELOCITY}\) is 1
Radial-dependent, section-independent; length of \(\texttt{VELOCITY}\) is \(\texttt{NRAD}\)
Section-dependent; length of \(\texttt{VELOCITY}\) is \(\texttt{NSEC}\)
Radial-dependent, section-dependent; length of \(\texttt{VELOCITY}\) is \(\texttt{NRAD} \cdot \texttt{NSEC}\); ordering is section-major
Type: int
Range: \(\{0, \dots, 3 \}\)
Length: 1
PAR_TYPE_VOLFRAC
Volume fractions of the particle types. The volume fractions can be set homogeneous or individually along both axes. For each cell, the volume fractions have to sum to 1. In case of a spatially inhomogeneous setting, the \(\texttt{SENS_SECTION}\) field is used for indexing the axial cell and the \(\texttt{SENS_REACTION}\) field is used for indexing the radial cell when specifying parameter sensitivities. This field is optional in case of only one particle type.
Type: double
Range: \([0,1]\)
Length: see \(\texttt{PAR_TYPE_VOLFRAC_MULTIPLEX}\)
PAR_TYPE_VOLFRAC_MULTIPLEX
Multiplexing mode of \(\texttt{PAR_TYPE_VOLFRAC}\). Determines whether \(\texttt{PAR_TYPE_VOLFRAC}\) is treated as radial- and/or section-independent. This field is optional. When left out, multiplexing behavior is inferred from the length of \(\texttt{PAR_TYPE_VOLFRAC}\). Valid modes are:
Radial-independent, axial-independent; length of \(\texttt{PAR_TYPE_VOLFRAC}\) is \(\texttt{NPARTYPE}\)
Radial-dependent, axial-independent; length of \(\texttt{PAR_TYPE_VOLFRAC}\) is \(\texttt{NRAD} \cdot \texttt{NPARTYPE}\); ordering is radial-major
Axial-dependent; length of \(\texttt{PAR_TYPE_VOLFRAC}\) is \(\texttt{NCOL} \cdot \texttt{NPARTYPE}\); ordering is axial-major
Radial-dependent, axial-dependent; length of \(\texttt{PAR_TYPE_VOLFRAC}\) is \(\texttt{NCOL} \cdot \texttt{NRAD} \cdot \texttt{NPARTYPE}\); ordering is axial-radial-major
Type: int
Range: \(\{0, \dots, 3 \}\)
Length: 1
Group /input/model/unit_XXX/discretization - UNIT_TYPE - GENERAL_RATE_MODEL_2D¶
NCOL
Number of axial column discretization cells
Type: int
Range: \(\geq 1\)
Length: 1
NRAD
Number of radial column discretization cells
Type: int
Range: \(\geq 1\)
Length: 1
NPARTYPE
Number of particle types. Optional, inferred from the length of \(\texttt{NPAR}\) or \(\texttt{NBOUND}\) if left out.
Type: int
Range: \(\geq 1\)
Length: 1
NPAR
Number of particle (radial) discretization cells for each particle type
Type: int
Range: \(\geq 1\)
Length: \(1 / \texttt{NPARTYPE}\)
NBOUND
Number of bound states for each component in each particle type in type-major ordering
Type: int
Range: \(\geq 0\)
Length: \(\texttt{NCOMP} / \texttt{NPARTYPE} \cdot \texttt{NCOMP}\)
PAR_GEOM
Specifies the particle geometry for all or each particle type. Valid values are \(\texttt{SPHERE}\), \(\texttt{CYLINDER}\), \(\texttt{SLAB}\). Optional, defaults to \(\texttt{SPHERE}\).
Type: string
Length: \(1\) / \(\texttt{NPARTYPE}\)
RADIAL_DISC_TYPE
Specifies the radial discretization scheme. Valid values are \(\texttt{EQUIDISTANT}\), \(\texttt{EQUIVOLUME}\), and \(\texttt{USER_DEFINED}\).
Type: string
Length: 1
RADIAL_COMPARTMENTS
Coordinates for the radial compartment boundaries (ignored if \(\texttt{RADIAL_DISC_TYPE} \neq \texttt{USER_DEFINED}\)). The coordinates are absolute and have to include the endpoints 0 and \(\texttt{COLUMN_RADIUS}\). The values are expected in ascending order (i.e., 0 is the first and \(\texttt{COLUMN_RADIUS}\) the last value in the array).
Unit: \(\mathrm{m}\)
Type: double
Range: \([0,\texttt{COLUMN_RADIUS}]\)
Length: \(\texttt{NRAD} + 1\)
PAR_DISC_TYPE
Specifies the discretization scheme inside the particles for all or each particle type. Valid values are \(\texttt{EQUIDISTANT_PAR}\), \(\texttt{EQUIVOLUME_PAR}\), and \(\texttt{USER_DEFINED_PAR}\).
Type: string
Length: \(1 / \texttt{NPARTYPE}\)
PAR_DISC_VECTOR
Node coordinates for the cell boundaries (ignored if \(\texttt{PAR_DISC_TYPE} \neq \texttt{USER_DEFINED_PAR}\)). The coordinates are relative and have to include the endpoints 0 and 1. They are later linearly mapped to the true radial range \([r_{c,j}, r_{p,j}]\). The coordinates for each particle type are appended to one long vector in type-major ordering.
Type: double
Range: \([0,1]\)
Length: \(sum_i (\texttt{NPAR}_i + 1)\)
PAR_BOUNDARY_ORDER
Order of accuracy of outer particle boundary condition. Optional, defaults to 2.
Type: int
Range: \(\{ 1,2 \}\)
Length: 1
USE_ANALYTIC_JACOBIAN
Determines whether analytically computed Jacobian matrix (faster) is used (value is 1) instead of Jacobians generated by algorithmic differentiation (slower, value is 0)
Type: int
Range: \(\{0, 1\}\)
Length: 1
LINEAR_SOLVER_BULK
Linear solver used for the sparse column bulk block. This field is optional, the best available method is selected (i.e., sparse direct solver if possible). Valid values are:
\(\texttt{DENSE}\) Converts the sparse matrix into a banded matrix and uses regular LAPACK. Slow and memory intensive, but always available.
\(\texttt{UMFPACK}\) Uses the UMFPACK sparse direct solver (LU decomposition) from SuiteSparse. Fast, but has to be enabled when compiling and requires UMFPACK library.
\(\texttt{SUPERLU}\) Uses the SuperLU sparse direct solver (LU decomposition). Fast, but has to be enabled when compiling and requires SuperLU library.
Type: string
Range: \(\{\texttt{DENSE},\texttt{UMFPACK},\texttt{SUPERLU}\}\)
Length: 1
RECONSTRUCTION
Type of reconstruction method for fluxes
Type: string
Range: \(\texttt{WENO}\)
Length: 1
GS_TYPE
Type of Gram-Schmidt orthogonalization, see IDAS guide Section~4.5.7.3, p.~41f. A value of 0 enables classical Gram-Schmidt, a value of 1 uses modified Gram-Schmidt.
Type: int
Range: \(\{0, 1\}\)
Length: 1
MAX_KRYLOV
Defines the size of the Krylov subspace in the iterative linear GMRES solver (0: \(\texttt{MAX_KRYLOV} = \texttt{NCOL} \cdot \texttt{NRAD} \cdot \texttt{NCOMP} \cdot \texttt{NPARTYPE}\))
Type: int
Range: \(\{0, \dots, \texttt{NCOL} \cdot \texttt{NRAD} \cdot \texttt{NCOMP} \cdot \texttt{NPARTYPE} \}\)
Length: 1
MAX_RESTARTS
Maximum number of restarts in the GMRES algorithm. If lack of memory is not an issue, better use a larger Krylov space than restarts.
Type: int
Range: \(\geq 0\)
Length: 1
SCHUR_SAFETY
Schur safety factor; Influences the tradeoff between linear iterations and nonlinear error control; see IDAS guide Section~2.1 and 5.
Type: double
Range: \(\geq 0\)
Length: 1
For further discretization parameters, see also Flux reconstruction methods, and Nonlinear solver for consistent initialization.