Power Systems Analysis Sessions
| Assessment ID : | ELE350 |
| Course Duration : | 5 Days |
| City : | Abu Dhabi |
| Location : | UAE |
Introduction
Power system analysis starts with sound design. A proper design and analysis of electric power system is vital to safety, proper functioning, and the efficient operation of a modern industrial plant. The power system includes high voltage circuit breakers, transformers, switchgears, Transmission lines, motor control centers, electric motors, variable speed drives, etc. This course is designed to address the design criterial for the major components of the power systems, including system planning, equipment selection, specification and application, system grounding, protection and conformity with electrical code requirements, etc.
Course objectives:
- By the end of the course, the participants should be able to:
- Understand the basic concepts of power system engineering
- Understand the main components of power systems
- Understand the fundamentals of electrical systems, transient and steady state analysis
- Identify and correct electrical problems related to over and Undervoltage
- Differentiate active, reactive, apparent, and complex power in power system
- Understand active/reactive power control in power systems
- Perform Per-Unit Calculations
- Define and perform short circuit calculations
Course contents:
- Power system parameters
- Power system configuration
- Power flow equations
- Model a power system by means of system parameters
- How to analyze and interpret the response of the power system to different scenarios
- Protection coordination, selectivity, sensitivity, and stability
- Transmission System Design Considerations
- Complex Power Definitions
- Power Factor Compensation (PFC) Techniques
- Shunt Reactor Compensation
- Line Voltage Drop
- Electrical Loads Types and Behaviors
- Balanced 3-phase System
- Unbalanced 3-phase Systems
- Symmetrical Components
- Wye-connected & Delta-connected Loads
- Voltage Regulation
- Transformers & Switchgears
- Complex Power Flow (single-phase analysis)
- Complex Power Flow (3-phase analysis)
- Symmetrical & Asymmetrical Faults analysis
- P.U calculations
- Short Circuit Capacity (SCC)
- Grounding, earthing, and bonding