Components view

The Components view contains a list of Equation of State Set (EOSSET) component properties. The master table for the Component view contains the different EOSSETs in your simulation. Key fields for the master table include:

Active  Determines whether EOSSET is active. Inactive regions are not written to the deck.

Name  Name of PVT region. Used only in the application.

Region ID  ID region used in the deck.

Components Table tab

The components table defines the components of the reservoir fluid.

COMPNAME  Identifies the component that will be used. There are two types of components; program components and user components. The components in the drop-down box are program components. They are as follows:

CH4 (or C1) FC6 FC26

CH2H6 (OR C2) FC7 FC27

C3H8 (or C3) FC8 FC28

IC4 FC9 FC29

NC4 FC10 FC30

IC5 FC11 FC31

NC5 FC12 FC32

NC6 FC13 FC33

NC7 FC14 FC34

NC8 FC15 FC35

NC9 FC16 FC36

NC10 FC17 FC37

NC16 FC18 FC38

N2 FC19 FC39

CO2 FC20 FC40

H2S FC21 FC41

H2O FC22 FC42

TOLUENE FC23 FC43

BENZENE FC24 FC44

CYCLO-C6 FC25 FC45

User components can be added by simply typing a name into the COMPNAME column.

Hydrocarbon  Flag indicating if the component is a hydrocarbon.

Critical Pressure  Identifies the critical pressure.

Critical Temperature  Identifies the critical temperature.

Acentric factor  Identifies the acentric factor.

Mol. Weight  Identifies the molecular Identifies the acentric factor.

Volume Shift  Specifies the volume shifts to be applied to the equation of state molar volumes.

Critical Compress. Factor  Identifies the critical compressibility factor.

OMEGA  Identifies directly the equation of state omega-A parameter.

OMEGB  Identifies directly the equation of state omega-B parameter.

Specific Gravity  Identifies specific gravity.

Average normal boiling point  Identifies the average normal boiling point.

Parachor  Identifies the parachor.

Enthalpy Coeff A  Thermal options indicating input of ideal gas enthalpy coefficient.

Enthalpy Coeff B  Thermal options indicating input of ideal gas enthalpy coefficient.

Enthalpy Coeff C  Thermal options indicating input of ideal gas enthalpy coefficient.

Enthalpy Coeff D  Thermal options indicating input of ideal gas enthalpy coefficient.

Enthalpy Coeff E  Thermal options indicating input of ideal gas enthalpy coefficient.

Enthalpy Coeff F  Thermal options indicating input of ideal gas enthalpy coefficient.

Component Properties tab

The Component Properties tab displays properties that affect the components.

MODEL  The input of the fluid component model to use for the simulation.

TRES  Specifies the reservoir temperature. Clicking on the button for TRES opens the Reservoir Temperature settings editor. There are two options; constant and linearly varying with depth.

SOLIDMODEL  Has four parameters required by the isothermal asphaltene precipitation model used by the GEM™ simulator.

DERIVATIVEMETHOD  Functionally a numerical methods keyword. Options include:

MIXED

NUMBERALL

NUMERFLOW

PSAT  Specifies the saturation pressure of the original reservoir fluid.

PHASEID  Specifies one of the several methods for identifying single phase reservoir fluids as oils or gases when they are found in grid block during simulation. There are five options to choose from:

OIL

GAS

CRIT

DEN

TCMIX

MIXVC  The exponent used to compute the mixture critical volume for use in the Jossi, STiel, and Thodos formula.

VISCOR  Specifies how the hydrocarbon phase viscosities are to be computed. Options include:

MIX

HZYT

LE

PEDERSEN

MODPEDERSEN

VISCOEFF  The coefficients for the Jossi, Stiel and Thodos correlation, or for the Pedersen or Modified Pedersen correlations. Clicking on the button for VISCOEFF opens the Coefficients correlations editor.

SOLUBILITY  Indicates that solubility of components in the aqueous phase may be modeled. Options include:

HENRY

IDEAL

If either HENRY or IDEAL is selected, the Aqueous Phase Solubility table will be displayed.

DENROCK  Rock mass density. This is the actual rock density, not including its pore space.

ADSCST  Introduces the parameter for the Langmuir isotherm model.

REFPW  Specifies the reference pressure for water density.

CW  Specifies the isothermal compressibility for water.

DENW  Specifies the mass density of water at reservoir conditions.

RHOW  Specifies the molar density of water at reservoir conditions.

VISW  Specifies a constant water viscosity value.

PVC3  Specifies the parameter used to calculate the interaction coefficients between hydrocarbon-hydrocarbon component pairs (components both having Hydrocarbon? Set in the Component Table).

AQUEOUS-DENSITY  The method to be used for calculating density of the aqueous phase in the reservoir. Aqueous density at the surface must be entered with RHOWS or DENWS. There are 2 options available:

LINEAR  Indicates that aqueous molar density will be calculated as a linear function of pressure. This is the default method.

ROWE-CHOU  Indicates that the aqueous molar density will be calculated from the Rowe-Chou correlation.

AQUEOUS-VISCOSITY  The viscosity model for aqueous phase.

SALINITY  The salinity of the aqueous phase in terms of equivalent NaCl concentration for use with AQUEOUS-VISCOSITY model.

VISVC  The component pseudo-critical volumes used to compute the mixture critical volume for use in the Jossi, Stiel, and Thodos formula (Set in the Component Properties tab).

The Coefficients Correlations Editor will show the default correlations for the chosen model in the left column. The editable values are in the right column.

Aqueous Components Table tab

The Aqueous phase solubility table defines the solubility of components in the aqueous phase. This tab will become visible when HENRY or IDEAL is selected for SOLUBILITY on the Component Properties tab.

Mineral Components Table tab

The Mineral Components table allows you to define weights and densities for mineral components.