private subroutine internal_energy_residual_pt(eos, n, P, T, root_type, Ur, UrP, UrT, Urn)

Calculate residual internal energy given pressure and temperature.

Examples

eos = PengRobinson76(Tc, Pc, w)

n = [1.0_pr, 1.0_pr]
T = 300.0_pr
P = 1.0_pr

call eos%internal_energy_residual_pt(&
   n, P, T, root_type="stable", Ur=Ur, UrP=UrP, UrT=UrT, Urn=Urn &
   )

Type Bound

ArModel

Arguments

Type	Intent	Optional		Name
class(ArModel),	intent(in)		::	eos	Model
real(kind=pr),	intent(in)		::	n(:)	Moles number vector
real(kind=pr),	intent(in)		::	P	Pressure [bar]
real(kind=pr),	intent(in)		::	T	Temperature [K]
character(len=*),	intent(in)		::	root_type	Desired root-type to solve. Options are: `["liquid", "vapor", "stable"]`
real(kind=pr),	intent(out),	optional	::	Ur	Residual internal energy [bar L]
real(kind=pr),	intent(out),	optional	::	UrP	$\frac{dU^r}}{dP}$
real(kind=pr),	intent(out),	optional	::	UrT	$\frac{dU^r}}{dT}$
real(kind=pr),	intent(out),	optional	::	Urn(size(n))	$\frac{dU^r}}{dn}$

Calls

Help

Variables

Type	Visibility		Name
real(kind=pr),	private	::	P_dummy
real(kind=pr),	private	::	UrT_v
real(kind=pr),	private	::	UrV_v
real(kind=pr),	private	::	Ur_v
real(kind=pr),	private	::	Urn_v(size(n))
real(kind=pr),	private	::	V
real(kind=pr),	private	::	dPdT
real(kind=pr),	private	::	dPdV
real(kind=pr),	private	::	dPdn(size(n))
logical,	private	::	dT
real(kind=pr),	private	::	dVdP
real(kind=pr),	private	::	dVdT
real(kind=pr),	private	::	dVdn(size(n))
logical,	private	::	derivs_present
logical,	private	::	dn
logical,	private	::	dp

internal_energy_residual_pt Subroutine

Contents

Variables

private subroutine internal_energy_residual_pt(eos, n, P, T, root_type, Ur, UrP, UrT, Urn)

Examples

Type Bound

Arguments

Calls

Variables