Wide Area Measurements System (WAMS) Implementation
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INTRODUCTION
At present, the PMU technology is one of the essential enablers for WAMS. It utilizes the availability of high-precision synchronized clock sources – extracted from global positioning system (GPS) receivers and samples the instantaneous analogue – quantities of voltage and current magnitudes and phase angles.
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COURSE OBJECTIVES
By the end of the course, you‘ll be able to:
- Respond faster and more effectively to system disturbances
- Recreate the precise sequence of events following a major system disturbance
- Understanding Synchrophasor Measurement Techniques
- Provide real-time monitoring of dynamic phenomena
- Understand the communication infrastructure for WAMS
- Wide-Area Measurement System (WAMS)
- Phasor Measurement Unit (PMU)
- After completing this course, participants will be able to:
- illustrate how to enhance the reliability of large interconnected power systems using wide-area measurement technology
- Envision and implement improved monitoring, protection, and control of power systems and equipment
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COURSE AUDIENCE
This course is made for
- Technical staff responsible for Smart Grid integration into power system monitoring and control
- Consultants and researchers in the field of operation and control of power systems
- Operations supervisors and others
- Power system protection engineers
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COURSE OUTLINE
Day One
- Power System History and Challenges
- Conventional Measurements and SCADA
- Synchronized Measurement Technology (SMT)
- Wide-Area Measurement System (WAMS)
- WAMS Around the World
Day Two
- Review of Phasor Measurement Principles and Techniques
- Discrete Fourier Transform (DFT) Method
- Measurements at Nominal Frequency
- Measurements at Off-Nominal Frequency
- Frequency Estimation
Day Three
WAMS Applications
- Introduction
- Situational Awareness
- Signal Trending and Alarming
- Real-time Stability Monitoring
- State Estimation
- Fault Detection and Locating
Day Four
WAMS Applications
- Power System Oscillations
- Oscillation Specifications and Damping Criteria
- Mitigation of Power System Oscillations
- Small-Signal Stability Assessment in Networks with HVDC systems
- Voltage Stability Analysis for Load Points and Transmission Corridors
WAMS Applications
- Dynamic Rating and Real-Time Congestion Management
- Wide-Area Control Functions
- Special Protections Scheme
- Intentional Islanding and System Restoration
Day Five
WAMS Applications
- Estimation of System Inertial Constant
- Generating Unit Model Validation
- Transmission Line Modeling
- Load Model Characterization
- Post Disturbance Analysis
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