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19 - EEE - Electrical & Electronics Engineering
EEE 194A - Electrical Submersible Pumps (ESP) Basics Operation, Design, Optimization & Troubleshooting
Code | Start Date | Duration | Venue | |
---|---|---|---|---|
EEE 194A | 23 December 2024 | 5 Days | Istanbul | Registration Form Link |
EEE 194A | 20 January 2025 | 5 Days | Istanbul | Registration Form Link |
EEE 194A | 03 March 2025 | 5 Days | Istanbul | Registration Form Link |
EEE 194A | 28 April 2025 | 5 Days | Istanbul | Registration Form Link |
EEE 194A | 23 June 2025 | 5 Days | Istanbul | Registration Form Link |
EEE 194A | 18 August 2025 | 5 Days | Istanbul | Registration Form Link |
EEE 194A | 13 October 2025 | 5 Days | Istanbul | Registration Form Link |
EEE 194A | 08 December 2025 | 5 Days | Istanbul | Registration Form Link |
Course Description
This course covers ESP basics of design, operation and optimization, ESP components, troubleshooting and ESP surface equipment.
By the end of the course, trainees will be familiar with all ESP types and their uses in addition to ESP wells down hole problems and the best solution applied in artificial Lift technology.
Trainees will be familiar with the newest ESP technology and Down Hole Monitoring tools which are considered as the eyes of the ESP operators.
Trainees will be familiar with VSD Variable speed drives and their application in ESP wells.
Course Objectives
- Learn about the design considerations for ESP systems, including pump selection, motor sizing, and cable design.
- Understand the basic operation principles of Electrical Submersible Pumps (ESP) in oil and gas production.
- Explore optimization techniques for ESP systems to maximize production efficiency and minimize downtime.
- Gain knowledge on troubleshooting common issues with ESP systems, such as motor overheating, pump cavitation, and electrical failures.
- Develop practical skills in analyzing ESP performance data and implementing corrective actions to improve system reliability.
- Enhance understanding of safety protocols and best practices for working with ESP systems in hazardous environments.
Who Should Attend?
- Production Staff
- ESP Operators and ESP staff
- ESP Field ServiceTechnicians and Engineers
- ESP Application Engineers
Course Details/Schedule
Day 1
- ESP Basics and fundamentals.
- IPR and VLP
- Pressure Gradient
- Pressure and depth
- Pressure Drawdown & Skin factor
- Multiphase Flow
- Well Inflow Performance
- Productivity Index Model
- Vogels inflow performance relationship
- Composite Inflow Performance Relationship
- Total Dynamic Head components
- Total Dynamic Head (TDH) calculations
- Well conditions
- Total Dynamic Head calculation.
- Pump Performance Curves
- GOR calculation.
- Specific gravity & API
Day 2
- ESP components.
- Three phase induction motor principles
- Motor ratings
- Motor components
- Protector components and types
- Gas separator components and types
- Pump components and types
- Pump intake and types
- DMT types and principles
- DMT surface panel (SIB Surface Integrated Board)
- Cables types and components and cables types suitable to well conditions
- Well head components
Day 3
- Principals of electricity.
- Surface equipment types and applications
- FSD Transformer
- VSD Transformers (step up & step down)
- FSD types and applications
- VSD types and application
- VSD Basic Electrical Block Diagram
- Affinity laws
Day 4
- Pump sizing exercises
- High Water Cut exercises
- High GOR exercises
- Gassy wells design
- Variable rating
- High temperature wells design
Day 5
- Amp charts analyses
- ESP troubleshooting
- Electrical Surface equipment protections
- Harmonics principles and origin.
- Harmonic effects and reduction
- Harmonics simulation