deriveChargeDensity

private recursive subroutine deriveChargeDensity(fun, varSys, elempos, time, tree, nElems, nDofs, res)

Calculate charge density of a given element for mixture. Charge density is mixture quantity to it returns same value for all species charge_density = Faraday * \sum_i z_i*density_i/molecularWeight_i

Arguments

Type	Intent		Name
class(tem_varSys_op_type),	intent(in)	::	fun	Description of the method to obtain the variables, here some preset values might be stored, like the space time function to use or the required variables.
type(tem_varSys_type),	intent(in)	::	varSys	The variable system to obtain the variable from.
integer,	intent(in)	::	elempos(:)	Position of the TreeID of the element to get the variable for in the global treeID list.
type(tem_time_type),	intent(in)	::	time	Point in time at which to evaluate the variable.
type(treelmesh_type),	intent(in)	::	tree	global treelm mesh info
integer,	intent(in)	::	nElems	Number of values to obtain for this variable (vectorized access).
integer,	intent(in)	::	nDofs	Number of degrees of freedom within an element.
real(kind=rk),	intent(out)	::	res(:)	Resulting values for the requested variable. Linearized array dimension: (n requested entries) x (nComponents of this variable) x (nDegrees of freedom) Access: (iElem-1)fun%nComponentsnDofs + (iDof-1)*fun%nComponents + iComp

Calls

Help

Variables

statePos iElem iLevel iField dens_pos elemOff fPtr mass_dens charge_dens

Variables

Type	Visibility	Attributes		Name
integer,	private		::	statePos
integer,	private		::	iElem
integer,	private		::	iLevel
integer,	private		::	iField
integer,	private		::	dens_pos
integer,	private		::	elemOff
type(mus_varSys_data_type),	private,	pointer	::	fPtr
real(kind=rk),	private		::	mass_dens
real(kind=rk),	private		::	charge_dens

deriveChargeDensity Subroutine

Contents

Variables

private recursive subroutine deriveChargeDensity(fun, varSys, elempos, time, tree, nElems, nDofs, res)

Arguments

Calls

Contents

Variables

Variables