integrated production modeling 1 - frontender
TRANSCRIPT
IntegratedProductionModeling 1
Course Objective
Learning Objectives
Pre-requisites
To provide an overview of the fluid flow equations and methods to estimate well production capacities and conditions for optimum flow, as applied to Conventional, Unconventional or Coal seam gas exploitation.
Students will learn and understand how to:
1. Determine the flow rate at which an existing oil or gas well will produce considering wellbore geometry and completion limitations, by natural flow or artificial lift.
2. Determine under what flow and time dependent conditions a well will load, become unstable or die.
3. Select the most economical time for the installation of artificial lift and to assist in the selection of the optimum lift method.
4. Optimize the system to produce the objective flow rate most economically.
5. Diagnose each component in the well system to determine whether it is restricting the flow rate unnecessarily.
6. Identify ways to increase production rates.
1. Students should have an background in Petroleum, Mechanical, Electrical or Chemical Engineering.
2. Students should be familiar with the components of a petroleum production system.
3. Ideally, students should have some experiece in production, drilling and/or completions operations.
4. Lecture intensity level to be adjusted to the average knowledge gaps of the class.
There are numerous oil and gas wells around the world that have not been optimized to achieve an objective rate efficiently.
In fact, many may have been completed in such a
manner that their maximum potential rate
cannot be achieved.
Many wells placed on artificial lift do not achieve
the expected efficiency due to other interactions
in the production environment.
Integrated production model, also known as
system’s nodal analysis, is defined as a systems
approach to the optimization of oil and gas
wells, and is used to evaluate thoroughly a
complete producing system.
Every component in a producing well or all wells
in a producing system can be optimized to
achieve the objective flow rate most economically.
All present components, beginning with the static
reservoir pressure, ending with the separator,
and including inflow performance, as well as
flow across the completion, up the tubing
string (including any downhole restrictions and safety valves), across the
surface choke, through horizontal flow lines, and
into the separation facilities- are analyzed.
Training Class Syllabus to be adapted
for Conventional,Unconventional or
Coal Seam GasReservoirs
Course Contents
Class Exercises
1. Introduction to production performance modeling.
2. Reservoir inflow performance. Reservoir inflow performance models, Steady-state vs. transient solution, formation damage principles, overview of hydrocarbon fluid mixes, multi-layer systems.
3. Well outflow performance.Wellbore Nodal analysis principles, Pump performance modeling, Outflow performance modeling.
4. Surface network model.Multiphase flow in tubing, Gathering networks, Network optimization.
5. Integrated production model. Why integrated production model? Lease operating model, Lease optimization.
Case 1Single phase water well from top of perforations to wellhead, free flow and pumped well
Case 2Two phase gas-water well, from top of perforations to wellhead, tubing and annular, static pressure decreasing, GLR increasing.
Case 3Single phase gas well, free flow, tubing vs. annular, static pressure decreasing.
Case 4Multiple wells, flowing different phases (water,gas-water, gas), free flow and pumped, static pressure decreasing, tubing vs. annular, GLR increasing.
Case 5Multiple wells (200+) example (subsurface to separator), water and gas lines, free flow and pumped wells, static pressure decreasing, GLR increasing.
Integrated ProductionModeling 1
Instructor Dr. Luigi Saputelli,
25 years of experience in integrated reservoir and
production modeling.
Additional Support On-site one-to-one
mentoring On-the-job training Consulting advice Team Workshops
Contact Us
Frontender Corporation 8558 Katy Freeway,
Suite 103 Houston, TX 77024
+1.281.217.2783 [email protected]
www.frontender.com
Schedule and Location Throughout the year.
Dates to be arranged at client’s location
preference.
Cost US$ 2,800 per student. Minimum 12 students.
Travel costs out of Houston.
Petex licenses at cost.
Gas
Oil
Water
WaterInjection
Gas Lift
Integrated Production Model