A non-reacting surface. More...

#include <Inlet1D.h>

Inheritance diagram for Surf1D:

Collaboration diagram for Surf1D:

Public Member Functions
virtual std::string	componentName (size_t n) const
	Name of the nth component. May be overloaded.

virtual void	init ()
	Initialize.

virtual void	eval (size_t jg, doublereal xg, doublereal rg, integer *diagg, doublereal rdt)
	Evaluate the residual function at point j.

virtual void	save (XML_Node &o, const doublereal *const soln)
	Save the current solution for this domain into an XML_Node.

virtual void	restore (const XML_Node &dom, doublereal *soln)

virtual void	_getInitialSoln (doublereal *x)
	Writes some or all initial solution values into the global solution array, beginning at the location pointed to by x.

virtual void	_finalize (const doublereal *x)
	In some cases, a domain may need to set parameters that depend on the initial solution estimate.

virtual void	showSolution_s (std::ostream &s, const doublereal *x)

virtual void	showSolution (const doublereal *x)
	Print the solution.

virtual void	setTemperature (doublereal t)
	Set the temperature.

virtual doublereal	temperature ()
	Temperature [K].

virtual void	setMoleFractions (std::string xin)
	Set the mole fractions by specifying a std::string.

virtual void	setMoleFractions (doublereal *xin)
	Set the mole fractions by specifying an array.

virtual doublereal	massFraction (size_t k)
	Mass fraction of species k.

virtual void	setMdot (doublereal mdot)
	Set the total mass flow rate.

virtual doublereal	mdot ()
	The total mass flow rate [kg/m2/s].

virtual void	setupGrid (size_t n, const doublereal *z)

int	domainType ()
	Domain type flag.

size_t	domainIndex ()
	The left-to-right location of this domain.

bool	isConnector ()
	True if the domain is a connector domain.

const OneDim &	container () const
	The container holding this domain.

void	setContainer (OneDim *c, size_t index)
	Specify the container object for this domain, and the position of this domain in the list.

void	setBandwidth (int bw=-1)

size_t	bandwidth ()
	Set the Jacobian bandwidth for this domain.

virtual void	setInitialState (doublereal *xlocal=0)

virtual void	setState (size_t point, const doublereal state, doublereal x)

virtual void	resize (size_t nv, size_t np)
	Resize the domain to have nv components and np grid points.

Refiner &	refiner ()
	Return a reference to the grid refiner.

size_t	nComponents () const
	Number of components at each grid point.

void	checkComponentIndex (size_t n) const
	Check that the specified component index is in range Throws an exception if n is greater than nComponents()-1.

void	checkComponentArraySize (size_t nn) const
	Check that an array size is at least nComponents() Throws an exception if nn is less than nComponents().

size_t	nPoints () const
	Number of grid points in this domain.

void	checkPointIndex (size_t n) const
	Check that the specified point index is in range Throws an exception if n is greater than nPoints()-1.

void	checkPointArraySize (size_t nn) const
	Check that an array size is at least nPoints() Throws an exception if nn is less than nPoints().

void	setComponentName (size_t n, std::string name)

void	setComponentType (size_t n, int ctype)

size_t	componentIndex (std::string name) const
	index of component with name name.

void	setBounds (size_t nl, const doublereal lower, size_t nu, const doublereal upper)
	Set the lower and upper bounds for each solution component.

void	setBounds (size_t n, doublereal lower, doublereal upper)

void	setTolerances (size_t nr, const doublereal rtol, size_t na, const doublereal atol, int ts=0)
	set the error tolerances for all solution components.

void	setTolerances (size_t n, doublereal rtol, doublereal atol, int ts=0)
	set the error tolerances for solution component n.

void	setTolerances (doublereal rtol, doublereal atol, int ts=0)
	set scalar error tolerances.

void	setTolerancesTS (doublereal rtol, doublereal atol)

void	setTolerancesSS (doublereal rtol, doublereal atol)

doublereal	rtol (size_t n)
	Relative tolerance of the nth component.

doublereal	atol (size_t n)
	Absolute tolerance of the nth component.

doublereal	upperBound (size_t n) const
	Upper bound on the nth component.

doublereal	lowerBound (size_t n) const
	Lower bound on the nth component.

void	initTimeInteg (doublereal dt, const doublereal *x0)
	Prepare to do time stepping with time step dt.

void	setSteadyMode ()
	Prepare to solve the steady-state problem.

bool	steady ()
	True if in steady-state mode.

bool	transient ()
	True if not in steady-state mode.

void	needJacUpdate ()
	Set this if something has changed in the governing equations (e.g.

void	evalss (doublereal x, doublereal r, integer *mask)
	Evaluate the steady-state residual at all points, even if in transient mode.

virtual doublereal	residual (doublereal *x, size_t n, size_t j)

int	timeDerivativeFlag (size_t n)

void	setAlgebraic (size_t n)

virtual void	update (doublereal *x)
	Does nothing.

doublereal	time () const

void	incrementTime (doublereal dt)

size_t	index (size_t n, size_t j) const

doublereal	value (const doublereal *x, size_t n, size_t j) const

virtual void	setJac (MultiJac *jac)

size_t	size () const

void	locate ()
	Find the index of the first grid point in this domain, and the start of its variables in the global solution vector.

virtual size_t	loc (size_t j=0) const
	Location of the start of the local solution vector in the global solution vector,.

size_t	firstPoint () const
	The index of the first (i.e., left-most) grid point belonging to this domain.

size_t	lastPoint () const
	The index of the last (i.e., right-most) grid point belonging to this domain.

void	linkLeft (Domain1D *left)
	Set the left neighbor to domain 'left.

void	linkRight (Domain1D *right)
	Set the right neighbor to domain 'right.

void	append (Domain1D *right)
	Append domain 'right' to this one, and update all links.

Domain1D *	left () const
	Return a pointer to the left neighbor.

Domain1D *	right () const
	Return a pointer to the right neighbor.

double	prevSoln (size_t n, size_t j) const
	Value of component n at point j in the previous solution.

void	setID (const std::string &s)
	Specify an identifying tag for this domain.

std::string	id () const

void	setDesc (const std::string &s)
	Specify descriptive text for this domain.

const std::string &	desc ()

virtual void	getTransientMask (integer *mask)

doublereal	z (size_t jlocal) const

doublereal	zmin () const

doublereal	zmax () const

void	setProfile (std::string name, doublereal values, doublereal soln)

vector_fp &	grid ()

const vector_fp &	grid () const

doublereal	grid (size_t point)

void	setGrid (size_t n, const doublereal *z)

virtual doublereal	initialValue (size_t n, size_t j)
	Initial value of solution component n at grid point j.

Public Attributes
doublereal	m_zfixed

doublereal	m_tfixed

bool	m_adiabatic

Protected Member Functions
void	_init (size_t n)

Protected Attributes
StFlow *	m_flow_left

StFlow *	m_flow_right

size_t	m_ilr

size_t	m_left_nv

size_t	m_right_nv

size_t	m_left_loc

size_t	m_right_loc

size_t	m_left_points

size_t	m_nv

size_t	m_left_nsp

size_t	m_right_nsp

size_t	m_sp_left

size_t	m_sp_right

size_t	m_start_left

size_t	m_start_right

ThermoPhase *	m_phase_left

ThermoPhase *	m_phase_right

doublereal	m_temp

doublereal	m_mdot

doublereal	m_rdt

size_t	m_points

vector_fp	m_slast

doublereal	m_time

vector_fp	m_max

vector_fp	m_min

vector_fp	m_rtol_ss

vector_fp	m_rtol_ts

vector_fp	m_atol_ss

vector_fp	m_atol_ts

vector_fp	m_z

OneDim *	m_container

size_t	m_index

int	m_type

size_t	m_iloc
	Starting location within the solution vector for unknowns that correspond to this domain.

size_t	m_jstart

Domain1D *	m_left

Domain1D *	m_right

std::string	m_id
	Identity tag for the domain.

std::string	m_desc

Refiner *	m_refiner

vector_int	m_td

std::vector< std::string >	m_name

int	m_bw

Detailed Description

A non-reacting surface.

The axial velocity is zero (impermeable), as is the transverse velocity (no slip). The temperature is specified, and a zero flux condition is imposed for the species.

Definition at line 349 of file Inlet1D.h.

Member Function Documentation

string componentName ( size_t n ) const

virtual

Name of the nth component. May be overloaded.

Reimplemented from Domain1D.

Definition at line 689 of file boundaries1D.cpp.

Referenced by Surf1D::save().

void init ( )

virtual

Initialize.

Reimplemented from Bdry1D.

Definition at line 701 of file boundaries1D.cpp.

References Domain1D::setBounds(), and Domain1D::setTolerances().

void eval	(	size_t	j,
		doublereal *	x,
		doublereal *	r,
		integer *	mask,
		doublereal	rdt
	)

virtual

Evaluate the residual function at point j.

If j == npos, evaluate the residual function at all points.

Parameters

j	Grid point j
x	Soln vector. This is the input.
r	residual this is the output.

Reimplemented from Domain1D.

Definition at line 717 of file boundaries1D.cpp.

References Domain1D::firstPoint(), Domain1D::lastPoint(), Domain1D::loc(), Domain1D::nComponents(), and Cantera::npos.

void save	(	XML_Node &	o,
		const doublereal *const	sol
	)

virtual

Save the current solution for this domain into an XML_Node.

Base class version of the general domain1D save function. This base class version will throw an error condition. Inherited classes will know how to save the solution vector.

Parameters

o	XML_Node to save the solution to.
sol	Current value of the solution vector. The object will pick out which part of the solution vector pertains to this object.

Reimplemented from Domain1D.

Definition at line 749 of file boundaries1D.cpp.

References XML_Node::addAttribute(), ctml::addFloat(), Surf1D::componentName(), Domain1D::loc(), and Domain1D::nComponents().

virtual void _getInitialSoln ( doublereal * x )

inlinevirtual

Writes some or all initial solution values into the global solution array, beginning at the location pointed to by x.

This method is called by the Sim1D constructor, and allows default values or ones that have been set locally prior to installing this domain into the container to be written to the global solution vector.

Reimplemented from Bdry1D.

Definition at line 369 of file Inlet1D.h.

virtual void _finalize ( const doublereal * x )

inlinevirtual

In some cases, a domain may need to set parameters that depend on the initial solution estimate.

In such cases, the parameters may be set in method _finalize. This method is called just before the Newton solver is called, and the x array is guaranteed to be the local solution vector for this domain that will be used as the initial guess. If no such parameters need to be set, then method _finalize does not need to be overloaded.

Reimplemented from Domain1D.

Definition at line 373 of file Inlet1D.h.

virtual void showSolution ( const doublereal * x )

inlinevirtual

Print the solution.

Reimplemented from Domain1D.

Definition at line 382 of file Inlet1D.h.

References Cantera::writelog().

virtual void setTemperature ( doublereal t )

inlinevirtualinherited

Set the temperature.

Definition at line 52 of file Inlet1D.h.

virtual doublereal temperature ( )

inlinevirtualinherited

Temperature [K].

Definition at line 57 of file Inlet1D.h.

virtual void setMoleFractions ( std::string xin )

inlinevirtualinherited

Set the mole fractions by specifying a std::string.

Reimplemented in OutletRes1D, and Inlet1D.

Definition at line 62 of file Inlet1D.h.

virtual void setMoleFractions ( doublereal * xin )

inlinevirtualinherited

Set the mole fractions by specifying an array.

Reimplemented in OutletRes1D, and Inlet1D.

Definition at line 67 of file Inlet1D.h.

virtual doublereal massFraction ( size_t k )

inlinevirtualinherited

Mass fraction of species k.

Reimplemented in OutletRes1D, and Inlet1D.

Definition at line 72 of file Inlet1D.h.

virtual void setMdot ( doublereal mdot )

inlinevirtualinherited

Set the total mass flow rate.

Definition at line 78 of file Inlet1D.h.

References Bdry1D::mdot().

virtual doublereal mdot ( )

inlinevirtualinherited

The total mass flow rate [kg/m2/s].

Definition at line 83 of file Inlet1D.h.

Referenced by Bdry1D::setMdot().

int domainType ( )

inlineinherited

Domain type flag.

Definition at line 71 of file Domain1D.h.

size_t domainIndex ( )

inlineinherited

The left-to-right location of this domain.

Definition at line 78 of file Domain1D.h.

Referenced by Cantera::bound_step().

bool isConnector ( )

inlineinherited

True if the domain is a connector domain.

Definition at line 85 of file Domain1D.h.

const OneDim& container ( ) const

inlineinherited

The container holding this domain.

Definition at line 92 of file Domain1D.h.

void setContainer	(	OneDim *	c,
		size_t	index
	)

inlineinherited

Specify the container object for this domain, and the position of this domain in the list.

Definition at line 100 of file Domain1D.h.

Referenced by OneDim::addDomain().

size_t bandwidth ( )

inlineinherited

Set the Jacobian bandwidth for this domain.

When class OneDim computes the bandwidth of the overall multi-domain problem (in OneDim::resize()), it calls this method for the bandwidth of each domain. If setBandwidth has not been called, then a negative bandwidth is returned, in which case OneDim assumes that this domain is dense – that is, at each point, all components depend on the value of all other components at that point. In this case, the bandwidth is bw = 2*nComponents() - 1. However, if this domain contains some components that are uncoupled from other components at the same point, then this default bandwidth may greatly overestimate the true bandwidth, with a substantial penalty in performance. For such domains, use method setBandwidth to specify the bandwidth before passing this domain to the Sim1D or OneDim constructor.

Definition at line 129 of file Domain1D.h.

Referenced by OneDim::resize().

virtual void resize	(	size_t	nv,
		size_t	np
	)

inlinevirtualinherited

Resize the domain to have nv components and np grid points.

This method is virtual so that subclasses can perform other actions required to resize the domain.

Reimplemented in StFlow.

Definition at line 148 of file Domain1D.h.

References Domain1D::locate().

Referenced by Domain1D::Domain1D(), StFlow::resize(), and StFlow::StFlow().

Refiner& refiner ( )

inlineinherited

Return a reference to the grid refiner.

Definition at line 172 of file Domain1D.h.

Referenced by Sim1D::refine(), Sim1D::setGridMin(), and Sim1D::setRefineCriteria().

size_t nComponents ( ) const

inlineinherited

Number of components at each grid point.

Definition at line 177 of file Domain1D.h.

Referenced by Cantera::bound_step(), Domain1D::componentIndex(), Inlet1D::eval(), Symm1D::eval(), OutletRes1D::eval(), Surf1D::eval(), ReactingSurf1D::eval(), Inlet1D::init(), OutletRes1D::init(), Cantera::norm_square(), Sim1D::refine(), OneDim::resize(), Sim1D::restore(), Inlet1D::save(), Empty1D::save(), Symm1D::save(), OutletRes1D::save(), Surf1D::save(), ReactingSurf1D::save(), Sim1D::setFixedTemperature(), Sim1D::setInitialGuess(), and MultiNewton::step().

void checkComponentIndex ( size_t n ) const

inlineinherited

Check that the specified component index is in range Throws an exception if n is greater than nComponents()-1.

Definition at line 183 of file Domain1D.h.

void checkComponentArraySize ( size_t nn ) const

inlineinherited

Check that an array size is at least nComponents() Throws an exception if nn is less than nComponents().

Used before calls which take an array pointer.

Definition at line 192 of file Domain1D.h.

size_t nPoints ( ) const

inlineinherited

Number of grid points in this domain.

Definition at line 199 of file Domain1D.h.

Referenced by Cantera::bound_step(), ReactingSurf1D::eval(), Cantera::norm_square(), Sim1D::refine(), OneDim::resize(), Sim1D::setFixedTemperature(), Sim1D::setFlatProfile(), and Sim1D::setProfile().

void checkPointIndex ( size_t n ) const

inlineinherited

Check that the specified point index is in range Throws an exception if n is greater than nPoints()-1.

Definition at line 205 of file Domain1D.h.

void checkPointArraySize ( size_t nn ) const

inlineinherited

Check that an array size is at least nPoints() Throws an exception if nn is less than nPoints().

Used before calls which take an array pointer.

Definition at line 214 of file Domain1D.h.

size_t componentIndex ( std::string name ) const

inlineinherited

index of component with name name.

Definition at line 240 of file Domain1D.h.

References Domain1D::componentName(), and Domain1D::nComponents().

void setBounds	(	size_t	nl,
		const doublereal *	lower,
		size_t	nu,
		const doublereal *	upper
	)

inlineinherited

Set the lower and upper bounds for each solution component.

Definition at line 254 of file Domain1D.h.

References Cantera::int2str().

Referenced by Inlet1D::init(), Empty1D::init(), Symm1D::init(), OutletRes1D::init(), Surf1D::init(), ReactingSurf1D::init(), and StFlow::StFlow().

void setTolerances	(	size_t	nr,
		const doublereal *	rtol,
		size_t	na,
		const doublereal *	atol,
		int	ts = `0`
	)

inherited

set the error tolerances for all solution components.

Definition at line 16 of file Domain1D.cpp.

References Cantera::int2str().

Referenced by Inlet1D::init(), Empty1D::init(), Symm1D::init(), OutletRes1D::init(), Surf1D::init(), ReactingSurf1D::init(), and StFlow::StFlow().

void setTolerances	(	size_t	n,
		doublereal	rtol,
		doublereal	atol,
		int	ts = `0`
	)

inherited

set the error tolerances for solution component n.

Definition at line 34 of file Domain1D.cpp.

void setTolerances	(	doublereal	rtol,
		doublereal	atol,
		int	ts = `0`
	)

inherited

set scalar error tolerances.

All solution components will have the same relative and absolute error tolerances.

Definition at line 47 of file Domain1D.cpp.

doublereal rtol ( size_t n )

inlineinherited

Relative tolerance of the nth component.

Definition at line 285 of file Domain1D.h.

Referenced by Inlet1D::init(), Empty1D::init(), Symm1D::init(), ReactingSurf1D::init(), Cantera::norm_square(), and StFlow::StFlow().

doublereal atol ( size_t n )

inlineinherited

Absolute tolerance of the nth component.

Definition at line 290 of file Domain1D.h.

Referenced by Inlet1D::init(), Empty1D::init(), Symm1D::init(), ReactingSurf1D::init(), Cantera::norm_square(), and StFlow::StFlow().

doublereal upperBound ( size_t n ) const

inlineinherited

Upper bound on the nth component.

Definition at line 295 of file Domain1D.h.

Referenced by Cantera::bound_step(), and Inlet1D::save().

doublereal lowerBound ( size_t n ) const

inlineinherited

Lower bound on the nth component.

Definition at line 300 of file Domain1D.h.

Referenced by Cantera::bound_step(), and Inlet1D::save().

void initTimeInteg	(	doublereal	dt,
		const doublereal *	x0
	)

inlineinherited

Prepare to do time stepping with time step dt.

Copy the internally-stored solution at the last time step to array x0.

Definition at line 310 of file Domain1D.h.

References Domain1D::loc().

Referenced by OneDim::initTimeInteg().

void setSteadyMode ( )

inlineinherited

Prepare to solve the steady-state problem.

Set the internally-stored reciprocal of the time step to 0,0

Definition at line 319 of file Domain1D.h.

Referenced by OneDim::setSteadyMode().

bool steady ( )

inlineinherited

True if in steady-state mode.

Definition at line 324 of file Domain1D.h.

bool transient ( )

inlineinherited

True if not in steady-state mode.

Definition at line 329 of file Domain1D.h.

void needJacUpdate ( )

inherited

Set this if something has changed in the governing equations (e.g.

Signal that the current Jacobian is no longer valid.

the value of a constant has been changed, so that the last-computed Jacobian is no longer valid. Note: see file OneDim.cpp for the implementation of this method.

Definition at line 391 of file OneDim.cpp.

References OneDim::jacobian(), OneDim::saveStats(), and MultiJac::setAge().

Referenced by Inlet1D::setMoleFractions(), OutletRes1D::setMoleFractions(), and Inlet1D::setSpreadRate().