course | Electrical Submersible Pump :Design, Installation, Commissioning
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OGC-1590 | Electrical Submersible Pump :Design, Installation, Commissioning
Course Sector : Oil, Gas and Chemical
| Duration | Date from | Date to | Course Venue | Course fees | Book a course |
|---|---|---|---|---|---|
| 10 Days | 2025-05-26 | 2025-06-06 | Dubai | $8,950 | Book now |
| 10 Days | 2025-07-07 | 2025-07-18 | Vienna | $11,950 | Book now |
| 10 Days | 2025-10-13 | 2025-10-24 | Dubai | $8,950 | Book now |
| 10 Days | 2025-02-09 | 2025-02-20 | Riyadh | $8,950 | Book now |
| 10 Days | 2024-12-30 | 2025-01-10 | Dubai | $8,950 | Book now |
Course Introduction
ESPs have advantages over some of the other artificial lift methods because they can generate a higher formation drawdown and achieve a higher rate. However, their performance is impacted by gas interference and formation sand production, both of which have to be addressed when setting ESPs in production wells.
This course will familiarize the user with the ESP system and its optimum application. All components will be described in detail. The course uses computer software for numerous design and analysis class problems. Some films will be shown to illustrate installation, operation, and removal of failed equipment, new products, and best practices. Discussion is encouraged concerning experiences of successes and failures. Comparisons are made to other lift methods to help facilitate the optimum method selection.
Course objective
- Optimize well productivity using ESP systems
- Identify the function of each component of the ESP system, and to select optional components and add-ons
- Design and analyze a system using computer software
- Apply best practices to extend system life
- Optimize system power efficiency
- Manage gas, solids, corrosion, and viscosity associated with produced fluids
- Determine if an ESP system is the optimum artificial lift system for a given producer
- Monitor system performance using the different types of sensors available
- Run ESP system troubleshooting.
Course Outline | 01 Day One
Well Completion / Artificial Method Selection
- Introduction for Reservoir and Production Considerations
- Well Completion types, design & accessories
- Artificial lift systems comparison and selecting criteria
Course Outline | 02 Day Two
ESP Onshore / Offshore Design, Installation (Rig-less) & Application
- ESP Equipment, Operation and Installation
- Description of all components of the electrical submersible system starting at the surface to the pump, transformers, controllers/VSD, wellhead, tubing cable, cable guards, motor lead cable, pump, intake/gas separator, equalizer/protector, motor and instrumentation
- Design of an ESP system to fit current and future well conditions,
- Operation of a given design
- Analysis of an ESP system using diagnostics from installed instrumentation and using diagnostic computer programs
- Removal of failed equipment
- Teardown analysis of failed equipment and RCFA considerations,
- Controls for ESP systems including variable speed drives, ESP instrumentation available in the industry
Course Outline | 03 Day Three
Pump Construction
- Compression Pumps
- Floater Pumps
Course Outline | 04 Day Four
Downhole Packer
- Quantum Packer
- Quantum Packer Setting Mechanism
Downhole Packer
- Quantum Packer
- Quantum Packer Setting Mechanism
Course Outline | 05 Day Five
Isolation Valve
- MFIV setting Procedure
- MFIV/Quantum Packer Completion Table
- Running MFIV Shifting Tool
- ESP Production Packer
Course Outline | 06 Day six
ESP Run-In-Hole Procedure
- Typical Completion Table
- Typical Completion Schematic
Course Outline | 07 Day Seven
Operational Considerations
- Importance of data keeping
- Maintenance and monitoring
- Installation considerations and cautions
- Analysis of an ESP system using diagnostics from installed instrumentation and using diagnostic
Course Outline | 08 Day Eight
New Pump Innovations
- Cross Flow
- ESP – TCP – Y-tool
- Hybrid ESP – Gas Lift Application
- Recirculation System
- Intelligent Completion Combined with ESP System
Course Outline | 09 Day Nine
Failure Analysis & Root Causes
- Pump Performance and Troubleshooting
- Motor Pump Performance at Different Speed Frequencies
- Amp. Charts, and Failure Analysis and Troubleshooting.
- Amp. Chart Interpretation:
- Normal
- Power fluctuations or spikes
- Gas lock
Course Outline | 10 Day Ten
Erratic current
- Under-load heavy kill fluid
- Pump off with gas interference
- Failed restart and False start
- Excessive cycling
- Fuzzy
- Free gas in pump
- Under current load
- Overload
- Pump handling solids and debris
- Emulsion surface loads…etc.
- Failure analysis, Data keeping, Maintenance and monitoring.
- Case Histories
BOOST’s Professional Attendance Certificate “BPAC”
BPAC is always given to the delegates after completing the training course,and depends on their attendance of the program at a rate of no less than 80%,besides their active participation and engagement during the program sessions.
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