Course Description
The course presents a systematic approach to the voltage control. It first adopts a general approach to the main power system, and then it explains what is meant by various power systems types, familiarization with principles of generation, transmission, and distribution methods and design and its associated calculations. The understanding of the principles and techniques of design of substations voltage control are explained.
Course Goal:
To enhance the delegate knowledge, skills, and abilities necessary to adopt a general approach to the main power system, and understand what is meant by various power systems types, familiarization with principles of generation, transmission, and distribution methods and design and its associated calculations.
Course Objectives:
By the end of the course, participant will be able to:
- Understand terminology of voltage control
- Understand voltage disturbance and transient voltages
- Be familiar with distribution network voltages
- Be familiar with synchronous voltage stability
- Understand load rep. for voltage control
- Be familiar with voltage instability phenomena
Course Outline:
- Terminology
- Voltage disturbance
- Transient Voltages
- Distribution Network Voltages
- Synchronous Voltage Stability
- Rotor Dynamics
- Swing Equation
- Power Angle Equation
- SYCH power ANGW equation
- Load Rep. for Voltage Control
- Load Behavior
- Classification of V control
- Transient Voltage Stability.
- Voltage Instability Phenomena
- Definition
- Classification
- Aspects of Voltage instabilities
- V Control Circuits design
Who Can Benefit?
- Electrical Engineers.
- Senior technicians who work in the electrical control and power utilities.
- Technicians who would like to refresh their knowledge.
- Mechanical and chemical Engineers who are interested in control subjects.