Integrated Production Modelling
Course Overview:
Integrated Asset Modeling (IAM) course covers all elements of PETEX software. It is designed for users who are not very familiar with PETEX modules (MBAL, PROSPER, MBAL, and PVTp). It covers theoretical parts needed prior to solving different problems using the software. PETEX is the main part to implement integrated production modeling for E&P professionals, and it is a basic tool for everyone who is responsible or part of his/her job is to increase production. The program starts from the basic level reaching advanced applications
of the PETEX.
Course Outcome:
The Integrated Asset Modeling (IAM) and Integrated Production Modeling (IPM) course provides a comprehensive understanding of key modules such as PROSPER, GAP, MBAL, and PVTp. Participants gain in-depth knowledge of each module’s applications and learn to select the optimum module for addressing specific problems. The course emphasizes the optimization of well performance using PROSPER, covering sensitivity analysis for inactive wells and predicting well lifespan. Participants also explore artificial lifting techniques, including gas lift and ESP, to enhance value and oil gain. Estimating stimulation value for wells using PROSPER modeling is a key. The MBAL module is thoroughly covered, encompassing data input, simulation, and prediction for depletion drive and water drive reservoirs. Participants learn to quickly assess Waterflooding value from MBAL and conduct sensitivity analyses on in-place volumes. Energy drive indices are explored, providing insights into reservoir behavior. Practical exercises involve introducing wells into MBAL for improved prediction, considering Variable Lift Performance (VLP) across different wells. GAP is introduced to participants, offering insights into identifying bottlenecks in surface systems and assessing the impact of system modifications. The course delves into various GAP modules such as Tanks, Sink, Pump, Lines, Compressors, Wells, Nodes, enabling participants to navigate and optimize surface facilities. PVTP is covered to ensure participants can perform quality control for PVT samples, insert PVT lab test data, and create phase diagrams. By the end of the course, participants will have gained practical skills, enabling them to leverage IAM and IPM modules for effective problem-solving, system optimization, and predictive modeling in the oil and gas industry.
Course Highlight:
Combination of theoretical knowledge with practical exercises will help students better understand the subject.
Proficiency Level:
Advanced
Module 1 – Introduction to Integrated Production Modeling (IPM)
- Basics of PETEX software and its significance
- Introduction to Nodal Analysis and IPR Models
- Understanding VLP Correlations and their impact
- Exploring factors like WC, GOR, Tubing Size, and WHP
- Examining different flow regimes
- Recognizing the importance of IPM/IAM for Engineers
- Overview of Data Sources, Preparation, and QC
Module 2 – Fundamentals of PROSPER Modeling
- Well Modeling in PROSPER: Data Entry, Needed Data, Well Models, IPR/VLP System
- VLP Correlations: Selection, Duns and Ros, Hagedorn Brown, Beggs and Brill, Orkiszewski, PE Correlations
- IPR Models: Vogel, Frochheimer, Fetckovich, Gas Wells IPR
- Deviation Survey, Surface Equipment, Geothermal Gradient
- Multilayer Reservoirs, Dual Porosity, SPOT Model
- Well Configuration, Defining Xmas Tree, Tubing, SSSV, Casing in PROSPER
- Generating Inflow, System Variables, Considerations for Natural Wells
- Artificial Lift: ESP and Gas Lift (GL) in PROSPER
- Exporting Curves to Other Software
- Rate Estimation and Sensitivity Study
Module 3 – Fundamentals of GAP Modeling
- Network Modeling in GAP: Data Entry, Needed Data, Facilities Modules
- Identifying Bottlenecks and Flow Assurance Aspects
- Gas Lift Optimizations and Sensitivity Study
- Modeling Pipelines, Sources, Sinks, Pumps, and Compressors
- Case Study
Module 4 – Fundamentals of MBAL Modeling
- Tank Modeling in MBAL: Data Entry, Needed Data, PVT Data, Transmissibility, Tanks Models
- Aquifer Models: Carter Tracey, Small Pot, Schilthuis, Hurst Steady State, Hurst Van Everdingen
- Relative Permeability, Fractional Flow, History Match
- Analytical Models, Prediction Modes, Sensitivity Study
- Case Study
Module 5 – Fundamentals of PVTP Modeling
- Fluid Modeling in PVTP: Data Entry, Needed Data, PVT Fundamentals, QC
- Phase Envelope, Critical Point, Saturation Pressure
- CCE, CVD, Decontamination, Lumping, Delumping
- Wax Point, EoS Modeling, Matching
- Reporting and Case Study
Module 6 – Integrated Asset Modeling (IAM) Fundamentals
- Integrating PROSPER, GAP, and MBAL to Form IAM
- IAM Workflow and Case Study
Resrevoir Engineer
Petroleum Engineer
Well Completion Engineer
Students with major in Petroleum Engineering
Course will take 5 days
ONLINE
Zoom Application will be used to deliver the training.
CLASSROOM (recommended)
Physical Classroom training will be hold at the properly equipped classroom
IN HOUSE
Training can be performed at the client facility.
COST
Online or classroom
Training: Cost per student: TBC
*Corporate cost will be discussed based on number of students.
PAYMENT METHODS
Bank Transfer: please contact us for bank details
Online Payment :Use “Book Now” button to book the training.
We understand that unforeseen circumstances may arise, and plans can change. Here is our cancellation and refund policy for your reference:
Cancellation:
Cancellation requests made 14 days or more before the training start date will be processed free of charge.
Cancellation requests made within 14 days of the training start date will incur a 50% refund.
No Refund:
No refund will be provided for cancellations made 1 day before the training start date.
Rescheduling:
Students have the option to reschedule the training up to 3 days before the training start date without incurring any additional charges.
In the case of emergencies, the company reserves the right to approve rescheduling for free.
We value your commitment to professional development and strive to accommodate changes whenever possible. Please contact our support team at [training@nexusofs.com] for assistance or to submit your rescheduling request. Thank you for your understanding.
Certification:
Certificates will be granted at the end of the training:
Materials:
Materials will be provided in digital format (paper free)
Maximum Students per class:
The number of students per class will be limited to 15 (for classroom option) in order to make the training more effective.
Breaks and Lunch:
Breaks and lunch will be agreed with the class.
What to bring:
Laptop, compatible with IPM software latest versions.
Training Start Time:
Students are asked to attend the venue 30mins before the start time for registration.
For any additional details please to contact us.