Input data in prosper to generate a basic model of an oil producing well, generate the IPR and make a system calculation knowing the Top Node Pressure

 10m 49s  •   Version: IPM 11  •   Code: P01   •  Required Tools: PROSPER

Category Tags: Getting started Naturally flowing oil wells

This tutorial shows how to match a black oil PVT model in PROSPER using laboratory data. The importance of the PVT model is reviewed, and the matched PVT model is used in calculations.

 05m 08s  •   Version: IPM 11  •   Code: P04   •  Required Tools: PROSPER

Category Tags: Getting started Naturally flowing oil wells PVT (fluid behavior) Matching

Learn how to select and match the multiphase flow correlation using a well test. The multiphase flow correlations are fundamental to estimate flowing bottomhole pressures, and predict future conditions of the well, such as increased water cut.

 18m 24s  •   Version: IPM 11  •   Code: P05   •  Required Tools: PROSPER

Category Tags: Getting started Naturally flowing oil wells Matching

The user must generate the oil well model from scratch, and match it. Then the erosional velocity must be analyzed, and sensibility analysis performed to study how to reduce tubing erosion. Finally the user must generate and export VLP curves.

 22m 00s  •   Version: IPM 11  •   Code: P07   •  Required Tools: PROSPER

Category Tags: Naturally flowing oil wells Flow assurance/ flow-lines Matching

Generate the well model and perform sensitivity analisis to water cut and well length

 10m 20s  •   Version: IPM 11  •   Code: P08   •  Required Tools: PROSPER

Category Tags: Naturally flowing oil wells Advance IPR models Flow assurance/ flow-lines Sensitivity Analysis

Starting from P-08 the user must eliminate the surface instalation and perform sensitivity analysis to horizontal well length and water cut

 04m 04s  •   Version: IPM 11  •   Code: P09   •  Required Tools: PROSPER

Category Tags: Naturally flowing oil wells Advance IPR models Flow assurance/ flow-lines Sensitivity Analysis

Starting from P-01, wich uses PI model, the user must determine the corresponding permeability of the Darcy model to obtain the same IPR. Then, with the model adjusted, the user must perform sensitivity analysis to the reservoir permeability

 06m 34s  •   Version: IPM 11  •   Code: P10   •  Required Tools: PROSPER

Category Tags: Naturally flowing oil wells Advance IPR models Sensitivity Analysis

Using as a basis the PROSPER file created in Tutorial P-08 a skin model develop by Karakas & Tariq and a gravel pack is included into the IPR section.

 07m 24s  •   Version: IPM 11  •   Code: P11   •  Required Tools: PROSPER

Category Tags: Naturally flowing oil wells Advance IPR models

In this tutorial well 1 PROSPER model is constructed. This well model will be used through different stages of the oil course.

 07m 46s  •   Version: IPM 11  •   Code: P39   •  Required Tools: PROSPER

Category Tags: Getting started Naturally flowing oil wells

In this tutorial the well 1 previously constructed is calibrated. The calibration begins with the PVT matching, then a multiphase flow correlation is selected and matched and finally the IPR of the well is calibrated using well test data.

 19m 11s  •   Version: IPM 11  •   Code: P40   •  Required Tools: PROSPER

Category Tags: Naturally flowing oil wells Matching

An oil well is producing from a single layer, a gas layer exists on top of it. The gas layer can be opened to provide some gas to act as an auto-gas lift system. Evaluate the performance of the entire system using the information provided.

 20m 06s  •   Version: IPM 11  •   Code: P25   •  Required Tools: PROSPER

Category Tags: Naturally flowing oil wells Matching