Go to Component Selection/Properties form and insert the library components in the following order: CO2, N2, C1, C2, C3, IC4, NC4, IC5, NC5, and FC6. Select PR 1978 as the equation of state to be used in characterizing the fluid model, select “Psia & deg F” as the units and Feed as "Mole". When inputting data for the other fluid models (Wet Gas, Gas Condensate, etc.) input the appropriate name for the model. Open the Titles/EOS/Units form and write “Dry Gas” in the Comment Line section and the Title Line 1 section. Please note that this course’s images and descriptions are based on WinProp version 2011.10 or newer.
WINPROP FREE DOWNLOAD WINDOWS
A general understanding of the interface and associated windows should be gained in the process of creating fluid models for Dry Gas, Wet Gas, Gas Condensate, Volatile Oil, and Black Oil cases.īasic Setup and Dry Gas Fluid Model Creation 1.ĭouble click on the WinProp icon in the Launcher and open the WinProp interface. 52Įxercise 1 – Base Models of Five Different Fluid Types The purpose of this exercise is to utilize WinProp to build 5 different types of fluid models. 49 Creating a STARS PVT Model from WinProp. 46 Matching of WinProp Model Viscosity to Laboratory Viscosity. 44 Matching of WinProp Model to Laboratory Results.
WINPROP FREE DOWNLOAD PLUS
44 Setup of WinProp model with Plus Fraction Splitting. 35 Matching Viscosity in WinProp to Laboratory Values. 32 Using Regression to Match WinProp model to Laboratory Results. 30 Defining Calculations and Experimental Values. 30 Setup of WinProp model with Plus Fraction Splitting. 28Įxercise 3 – Creation of Raleigh Black Oil. 24 Multi-Contact Miscibility Minimum Pressure Calculation. 24 Addition of Injection Streams and Calculations. 19Įxercise 2 – Determination of MMP and MME. 3 Basic Setup and Dry Gas Fluid Model Creation.
Table of Contents Exercise 1 – Base Models of Five Different Fluid Types. WinProp Tutorial Dry Gas, Wet Gas, Gas Condensate, Volatile Oil, Black Oil, and Heavy Oil