ELECTRICAL ENGINEERING

  • June 29, 2020 - July 10, 2020
    8:00 am - 5:00 pm

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This course describes the nature, type and technology associated with electrical systems and equipment in hydrocarbon processing and conditioning facilities. It also presents design principles of the components of a power system (generation, transmission and distribution) as well as other systems (automation and control components) contributing to the safety of operation and reliability expected from today’s power systems. The operating principle of AC motors are presented. A comparative study on different types of prime movers and DC are highlighted and discussed

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click here Who Should Attend?

This course is designed for surface system operation professionals, project managers, project developers, project & design engineers, facility engineers, operation engineers, and asset managers, maintenance / maintenance planner, integrity/reliability engineers

http://shareholderacademy.com/blog/shareholder-academy/update/amended-offering-statement-filed-updated-1-a/ What You Will Gain:

  • Skills and know-how in the latest and developing technologies in electrical systems
  • Demonstrate knowledge of the basic principles of electrical systems, the components thereof, and the respective configuration and operation
  • Utilize system approach to analysis, design and operational performance of electrical equipment. Identify and troubleshoot electrical system faults
  • Determine system performance in terms of power transients and disturbances to maintain uninterrupted power generation and distributions
  • Apply specialist technical knowledge of cable systems, types of systems, manufacturing practices and standards. Analyze & design overhead line systems. Examine how power transmission and distribution systems are designed
  • Understand the dielectric strengths and breakdown characteristics of electrical insulation. Evaluate the requirements for explosion protected equipment and lightning protection
  • Demonstrate ability in identifying crucial components, standards and guidelines and applying these standards and guidelines in the design of an earthing/grounding project
  • Demonstrate the ability to simulate small/large disturbances and identify and evaluate the respective parameters. Simulate and analyze power system transient phenomena at microsecond-level – switching and lightning transient. Outline the design requirements for electrical protection systems
  • Attain the requited theoretical and practicing knowledge on power quality and harmonics. Assess the selection criteria, operational parameters, and maintenance requirements for prime movers and variable speed drivers
  • Detail power generation mechanisms and methods, differentiate between AC versus DC and single versus three-phase power, examine the role of PLC in automation

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MODULE 1: Fundamentals of Electrical Engineering

  1. Single and multipath DC circuits
  2. Single and multipath AC circuits
  3. Conductors, insulators and electromagnetism
  4. Fundamentals of power systems and electric power generation
  5. Concepts behind power generation, transmission, distribution, and utilization
  6. Fundamentals of electrical network
  7. Electrical equipment used in power generation, transmission, distribution, and utilization
  8. Basics of power quality and electrical safety

MODULE 2: Source of Power

  1. Utility Power
  2. Electrical Generating Stations

MODULE 3: Power Systems

  1. Alternating current, waveform
  2. single and three phase systems
  3. DC and AC power
  4. Electrical power and energy

MODULE 4: Power System Design and Distribution

  1. Three-Phase Connection and Three-Phase Power Network
  2. Short Circuit Currents
  3. Distribution Equipment
  4. Substations
  5. Governing Principles
  6. Type of Distribution Systems

MODULE 5: Use of the Codes and Standards in electrical design and installations

MODULE 6: Power Generation, UPS and Batteries

  1. Renewable and non-renewable fuel sources and plants
  2. Need and types of batteries
  3. Present & Future-technology of batteries
  4. Battery Safety and Maintenance
  5. Uninterruptible Power Supply System (UPS)

MODULE 7: Electrical Drawings

  1. Drawing types, attributes and symbols
  2. Engineering drawings
  3. Computer aided design (CAD) and drawing management
  4. Layout drawings
  5. Routing & racking drawings
  6. Pneumatics & Hydraulics drawing
  7. Section diagrams

MODULE 8: Power Transformers, Circuit Breakers and Switchgear

  1. Theory, types, construction and characteristics of power transformers
  2. Installation, maintenance and testing of power transformers
  3. Medium voltage and low voltage switchgear
  4. Medium voltage and low voltage circuit breakers
  5. Batteries for substations

MODULE 9: Power Supply System Equipment and Installations

  1. Outdoor switchyards for transmission and distribution systems
  2. Switching equipment
  3. Overhead lines
  4. Voltage improvements in power distributions circuits
  5. Special installations

MODULE 10: Electrical Machines

  1. Principles of electrical machines
  2. AC and DC machines and their application
  3. Motor control, protection and testing
  4. Motor failure analysis

 MODULE 11: Power Cables and Wiring Methods

  1. Power cable types and classifications
  2. Jointing and termination
  3. Installation methods, types of cable faults and locating faults
  4. Wiring System Selections
  5. Junction Boxes and Conduit Fitting
  6. Sealing Fittings
  7. Receptacles and Attachment Plugs

MODULE 12: Monitor and Control of Electrical Network

  1. Components of SCADA systems
  2. Protection operation and other alarms/emergencies
  3. Planned system outages
  4. Communication facilities
  5. Planning, execution and close out network control activities

MODULE 13: Energy Efficiency and Energy Use

  1. Energy saving strategies
  2. Forms of energy and their usage
  3. Energy efficient practices
  4. Case studies
  5. Energy audits

MODULE 14: Testing, Troubleshooting and Maintenance of Electrical Equipment

  1. Fundamentals of testing
  2. Various methods of testing
  3. Testing of electrical equipment
  4. Organizational aspects of testing

MODULE 15: Troubleshooting, Maintenance and Protection of AC Electrical Motors and Variable Speed Drives for Instrumentation and Control Systems

  1. Fundamentals of AC motor construction, operation and maintenance
  2. Three-phase AC induction motors – design, operation, testing and protection
  3. Variable speed drives for AC induction motors
  4. Power electronic converters and electromagnetic compatibility
  5. Installation and fault-finding techniques for variable speed drives

MODULE 16: Protection and Transfer of Electric Power

  1. One-Line Diagrams
  2. Switchgear
  3. Circuit Breakers
  4. Transfer Switches
  5. Open vs. Closed Transition
  6. Load Banks
  7. Wet-Stacking

MODULE 17: Power Quality, Surge Protection and Noise Control

  1. Introduction to power quality and dealing with voltage variations/interruptions
  2. Basic principles of earthing and harmonics issues
  3. Voltage asymmetry and harmonics
  4. Identification and troubleshooting of power quality issues
  5. Surge and transient protection
  6. Harmonics and noise problems
  7. Solving harmonic resonance problems
  8. Power factor compensation and power quality studies

MODULE 18: Electrical Safety and Lightning Protection

  1. Fundamentals of protection
  2. Fuses, relays and batteries
  3. Protection types
  4. Earthing and bonding to avoid electric shock hazards
  5. Arc flash and mitigation
  6. Electrical safety principles
  7. Lightning protection of structures and other installations

MODULE 19: Earthing/Grounding, Ground Faults, and Short Circuits

  1. Electrical Supply system grounding
  2. Grounding, Ground Faults, and Short Circuits – Equipment, circuit, and transformer grounding; Effects of impedance; Grounded conductor alarms; Detecting faults automatically; Static electricity
  3. Earthing/grounding methods and design of protection systems

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