Electrical Power Quality Monitoring, Analysis and Mitigation
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Electrical Power Quality Monitoring, Analysis and Mitigation Course
Introduction:
The field of Electrical Power Transmission Systems engineering, coupled with distribution network analysis, planning, and design, holds significant importance in the technical management, development, and acquisition of intricate power and energy technology systems. These professionals are entrusted with the responsibility of planning, coordinating, and supervising group endeavors that transform operational requirements into technological solutions. Their expertise and skillsets are instrumental in determining whether a system will successfully meet cost, schedule, and performance objectives.
Course Objectives:
This course is intended to introduce attendees to systems engineering and provide a good understanding of how it can be applied to planning, designing, implementing, operating, and optimizing power and energy projects. The course leads the attendees step by step through the project life cycle and describes the systems engineering approach at each step using a real project. It focuses on how to begin implementing the systems engineering approach on power and energy projects and incorporate it more broadly into organization's business processes and practices.
Who Should Attend?
This special course is geared for systems engineers, functional engineers, power & energy specialists, and program managers interested in learning more about how to apply powerful methods to create solutions for complex systems.
Course Outlines:
System Fundamentals
Fundamentals of Power and Energy Systems
- Introduction to Energy Generation
- Different methods of generating electricity
- Turbine driven electrochemical generators
- Fuel cells
- Photovoltaics
- Thermoelectric devices
- Combustion of fossil fuels (coal, natural gas, and oil)
- Nuclear fission and fusion
- Renewable resources (solar, wind, hydro, tidal, and geothermal sources)
- Sustainability and energy efficiency
Transmission and Distribution and Smart Grid
- Power and Energy and the Environment
- Power and Energy Systems Project Management
- Power and Energy Generation
- Transmission and Distribution / Smart Grid
- Principles and Techniques of Wind Energy and Solar Cells
- Power Electronics
- Smart Grids Communications
- Modern power transmission and distribution systems
- Transformer technology
- Transmission grids
- Load management
- Distribution optimization
- Power supply reliability
- Infrastructure systems
- Security and deregulation
- SCADA systems
Energy and the Environment
- The direct and indirect impact of energy generation and transmission technologies on the environment
- Global climate change
- Clean energy technologies
- Energy conservation
- Air pollution
- Water resources
- Nuclear waste issues
Core Systems Engineering Principals
Introduction to Systems Engineering
- Why Use Systems Engineering?
- Definition of System and Systems Engineering
- Value of Systems Engineering
- What is Systems Engineering?
- Key-Systems Engineering Principles
- The V Systems Engineering Model
Power and Energy Systems Engineering
- Systems Engineering applied to power and energy
- Development and implementation of modern complex power and energy systems
- Developing new power and energy technologies and systems
- Need to plan, coordinate, and oversee interdisciplinary team efforts
- Translating operational needs into technology solutions
- Applying tools and skills determine whether a system will meet cost, schedule, and performance goal
- Systems engineering methods with potential applications to power and energy systems
- Integrated System Analysis of Power and Energy Projects
- Power and Energy Generation Technology Cost Modeling
- An example of Systems Engineering
- Application of Systems Engineering to Power and Energy Design
- Integral Power and Energy System Design
Power and Energy Systems Engineering Technical
- System Conceptual Design
- Using the Architecture
- Feasibility Study/Concept Exploration
- Project Management and Systems Engineering Master Plan
- Concept of Operations (ConOps)
- System Requirements
- System Design
- Systems Architecting
- Software/Hardware Development and Testing
- Integration and Verification
- Initial Deployment
- System Validation
- Operations and Maintenance
- Retirement/Replacement
- System of Systems (SoS) Engineering
- Power and Energy Systems Project Management
- Managing the electric power grid
- Broad-spectrum of empirical, theor