This highly informative Power System Analysis training course covers the essential elements of power system analysis, both from a theoretical perspective and more importantly, from a practical viewpoint. Methods that are often covered as abstract mathematical procedures, such as phasors, per-unit and symmetrical components, are presented in a straightforward and understandable manner. Modeling and analysis is viewed in a real-world sense, not as simply a step-by-step procedure. After completing this Power System Analysis training course, you will have an intuitive feel of how the power system behaves and how it needs to be analyzed under both normal and contingency conditions.
Este curso de formação da Coventry Academy inclui
Review of phasors, per-unit and three-phase power concepts
Modeling information for transmission lines, transformers, generators, and loads
Power flow analysis and system operation
Short circuit analysis including symmetrical components
Transient stability analysis
Quais são os objectivos?
No final deste curso de formação da Coventry Academy, os participantes serão capazes de
Perform three-phase power system calculations using phasor analysis and the per-unit system
Model key power system components, such as transmission lines, transformers, generators, and loads
Understand power flow analysis and know the basics of operating a power system
Use symmetrical component theory and sequence networks to analyze short-circuit faults
Understand the equal-area criterion for transient stability
A quem se destina este curso de formação?
This training course is designed for utility, plant, or consulting engineers and technicians involved in transmission or distribution system protection, planning, operations, or engineering. If you are beginning a career or assignment in these areas, this course will be of value to you. Those doing fault studies, maintaining computer fault study or power flow databases, or coordinating and setting overcurrent relays and fuses will especially benefit from this course. Topics will begin at the fundamental level and move to more advanced content as the course progresses. Prerequisites include a basic understanding of vector algebra and a familiarity with the voltage, current, watt, var, and phase angle measurement terms used in three-phase power systems.
This Coventry Academy training course is suitable to a wide range of professionals but will greatly benefit:
Engineers and technicians new to the power industry
Intermediate-level engineers and technicians working in the planning, design, and operation of power systems
Professionals involved with the generation, transmission, distribution, or utilization of electric power
Individuals working on integrating renewable energy resources into the existing power grid
Practitioners interested in modernizing and optimizing the performance of the power system
Como é que esta ação de formação será apresentada?
This training course will utilize a variety of proven adult learning techniques to ensure maximum understanding, comprehension, and retention of the information presented. These methods include workshops where attendees practice solving problems (bring a scientific calculator), case studies where concepts covered are applied to real-world situations, and simulations and animations to visually illustrate what would otherwise be abstract concepts in a novel and intuitive manner.
Descrição do curso
Day One: Introduction, Math Review and System Modeling
Time domain and phasor domain
Phasor math
Per-unit calculations
Basic three-phase power calculations
Transmission line parameter computation
Modeling transformers, generators, and loads
Day Two: Power Flow Analysis
Components of AC power
Building the Ybus and Zbus matrices
Power flow equations
Solution methods
Software simulations
Interpreting power flow results
Day Three: Generation Control, Economic Dispatch and Unbalanced System Analysis
Load, generation, and area control error (ACE)
Frequency bias
Economic dispatch of generation
Network behavior and contingencies
Analyzing unbalanced power systems
Symmetrical component theory
Day Four: Symmetrical Components and Sequence Networks
Development of symmetrical components
Sequence current behavior
Detailed delta-wye transformer analysis
Modeling sequence impedances
Construction of sequence networks
Analyzing harmonics as sequence currents
Day Five: Short Circuit Calculations and Transient Stability
Modeling faults with sequence networks
Short circuit current calculations
Open circuit current calculations
Fault current versus incident energy – arc flash hazard
Power system dynamics
Equal-area criterion for transient stability
O certificado
Coventry Academy Certificate of Completion for delegates who attend and complete the training course