opm-simulators
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Opm::SegmentState< Scalar > Class Template Reference

Public Member Functions

 SegmentState (int num_phases, const WellSegments &segments)
Scalar pressure_drop (std::size_t index) const
bool empty () const
void scale_pressure (Scalar bhp)
const std::vector< int > & segment_number () const
std::size_t size () const
template<class Serializer>
void serializeOp (Serializer &serializer)
bool operator== (const SegmentState &) const

Static Public Member Functions

static SegmentState serializationTestObject ()

Public Attributes

std::vector< Scalar > rates
std::vector< Scalar > dissolved_gas_rate
std::vector< Scalar > vaporized_oil_rate
std::vector< Scalar > phase_resv_rates
 Segment condition volume flow rates through segment (per phase).
std::vector< Scalar > phase_velocity
 Segment condition flow velocity through segment (per phase).
std::vector< Scalar > phase_holdup
 Segment condition holdup fractions through segment (per phase).
std::vector< Scalar > phase_viscosity
 Segment condition phase viscosities.
std::vector< Scalar > phase_density
 Segment condition phase densities.
std::vector< Scalar > pressure
std::vector< Scalar > pressure_drop_friction
std::vector< Scalar > pressure_drop_hydrostatic
std::vector< Scalar > pressure_drop_accel

Member Data Documentation

◆ phase_density

template<class Scalar>
std::vector<Scalar> Opm::SegmentState< Scalar >::phase_density

Segment condition phase densities.

num_phases + 2

elements per segment, with the two additional elements being fluid mixture densities. Fluid mixture densities are calculated with and without ICD-related flowing phase fraction exponents, respectively. Mixture density without flowing phase fraction exponents is stored at offset num_phases, and mixture density with flowing phase fraction exponents is stored at offset

num_phases + 1

.

In other words, the phase and mixture densities are stored as

[{ p0, p1, ..., (np - 1), mixture, mixture_with_exponents }, { p0, p1, ..., (np - 1), mixture, mixture_with_exponents }, ... { p0, p1, ..., (np - 1), mixture, mixture_with_exponents }]

The documentation for this class was generated from the following files: