Commissioning Testing and Start Up of Electrical Systems
Select Other "city & date"
Commissioning Testing and Start Up of Electrical Systems Course
Introduction:
The effectiveness of Electrical Systems relies heavily on the proper execution of Testing, Start-Up, and Commissioning procedures for each system. By implementing well-defined procedures, long-term benefits can be achieved, including reduced costs, minimized start-up delays, decreased parts requirements, and shorter troubleshooting time.
Throughout the course, participants are encouraged to ask questions and seek clarification, both during the training sessions and even after the course has concluded. They are also urged to share any relevant issues or experiences they may have, fostering a collaborative learning environment.
Course Objectives:
- To develop a structured approach to electrical systems using common terminology and to provide methods and solutions for various electrical systems start-up and commissioning.
- To develop a better understanding of various test equipment used in electrical testing.
- To develop a better understanding of various electrical equipment and control systems design, functionality, and failure modes.
- To better understand work practices, which allow for a successful start-up, commissioning, and troubleshooting including job plans.
- To provide examples of successful techniques and ‘hands-on experiences plus case studies and group problem solving exercises
Who Should Attend?
This course is intended for Electrical Maintenance Engineers, Supervisors, and Technicians working in a start-up, commissioning, or testing related roles that need either a greater awareness of, or to become more proficient in, the aspects of electrical systems and electrical maintenance activities. Because the methods and examples are generic, personnel from all industries will benefit.
Course Outlines:
Definitions/Procedures
- Testing, Start-Up, Commissioning and Troubleshooting
- Electrical Systems: AC (High Voltage, Medium Voltage, Low Voltage)
- DC
- Emergency Power and/or Cogeneration Power
- HVAC
- Lighting
- Fire Detection, Alarm and Suppression
- Safety, Security and Surveillance
Industrial Electrical Symbols
- Circuit Interrupter, Disconnect, Circuit Breaker
- Overload, Contacts
- Switch
- Transformer
- Meter
- Motor
- Electrical Components and Logic Symbols
Drawings
- Single Line HV (Switchgear)
- Single Line MV (Switchgear)
- Single Line LV (MCC)
- Single Line Wiring Schedule
- Single Line MV (Distribution)
- Protective Device Schematic
Test Equipment
- Digital Volt Meter with Temperature and Frequency accessories
- Oscilloscope/ScopeMeter
- Megger
- Ohm Meter
- Ammeter
- Pyrometer
- Power Meter/Power Quality Analyzer
AC Electrical System – High Voltage (7.5kV to 750kV)
Input Power from Local Utility Company
Power Transformer
- Bushings
- Mechanical Protection Devices and Indicators
- Electrical Protection Devices and Indicators
- Cooling Fans and Radiators
- Configuration
- Electrical Bus and Wiring Connections
- Current and Potential Transformers
Switch Gear
- Bus and Wiring Connections
- Knife Edges/Disconnects
- Insulators
- Fusing/Circuit Breaker/Tie Breaker
- Feeder Protection Relays
- Current and Potential Transformers
AC Electrical System – Medium Voltage (750V to 7.5kV)
Transformer
- Bushings
- Mechanical Protection Devices and Indicators
- Electrical Protection Devices and Indicators
- Cooling Fans and Radiators
- Configuration
- Electrical Bus and Wiring Connections
- Current and Potential Transformers
Switch Gear
- Bus and Wiring Connections
- Knife Edges/Disconnects/Contactors
- Insulators
- Control Metering/Indicators
- Fusing/Circuit Breaker/Tie Breaker
- Feeder Protection Relays
- Current and Potential Transformers
Motors
- Motor Protection Relays
- Vibration Analysis
- Hand-Off-Auto Functions
- Wiring Connections