HV / LV POWER SYSTEM RELAY PROTECTION
02 – 06 OCTOBER 2017, KUALA LUMPUR, MALAYSIA
About The Course
This seminar is specifically designed to provide an advanced understanding of the principles of power system protection design. Yet, via a progressive “building block” approach, this seminar has been specifically designed to meet the learning requirements of those who presently have only a fundamental knowledge of protection principles, while also considering advanced topics to provide a valuable insight for those more experienced in the discipline of power system protection design. Hence, this seminar will assist both those whose day to day work involves them in the application of protection design, coordination and relay setting, and also those in less directly associated areas of electricity system design
- The introductory material covers the basic principles of protection design, reliability, security and dependability as well as the implementation of unit and non-unit protection schemes, and remote, local and dead zone back-up schemes.
- With this grounding, delegates learn the principles of fault level calculation, including a comprehensive, but easily comprehendible discussion of sequence components.
- The seminar proceeds to cover the application of over current and earth fault protection, including application to transformers, parallel networks, and the need for directional facilities.
- The implementation of voltage and current transformers, to IEC60044, covers both the steady state and transient requirements for these essential components, including the application of the (1+X/R) CT transient requirement.
- Distance relay protection discussions cover fundamental design aspects, relay comparator characteristics and load transfer implications. Protection signalling requirements, to meet regulatory requirements covers the fundamental principles of distance relay permissive and blocking schemes as well as considering power line carrier applications.
- Short circuit protection of induction motors is considered, but since most electrical failures are actually the result of previous overheat, this latter topic is especially considered in detail.
- Finally, the specialized requirements for the protection of synchronous generators are comprehensively considered. This discussion includes high speed protection for actual generator faults, and also coordinated slower protection philosophies for generator and power system events.
This seminar is specifically designed to provide a comprehensive and in-depth understanding of the principles of power system protection design. This seminar has been carefully formulated to provide a valuable insight into power system protection design and principles for those more experienced in the discipline of protection design while yet meeting the learning requirements of those who presently have a more limited knowledge of power system protection principles.
Who Should Attend
This seminar will assist both those whose day to day work involves them in the application of protection design, coordination and relay setting, and also those in other less directly associated areas of electrical power system design. This seminar has been prepared specifically to meet the requirements of:
- Protection Design Engineers, to identify protection implications and to ensure design, coordination and relay setting principles provide the necessary levels of speed, security, dependability and safety.
- Power System Network Operators, to ensure optimisation of network performance and operation without compromising protection principles or risking inadvertent protection operators.
- Planning Engineers, to identify the difficulties in providing protection for various power system configurations under review.
- Maintenance Engineers, to ensure that system protection is not compromised as plant is removed from service during maintenance.
- Circuitry Design Engineers, to ensure that protective schemes are implemented in a manner to provide optimum performance.
- Commissioning Engineers, to ensure the actual field installation of the protection scheme and associated relay settings meets the design requirements.
- Field Technicians, to understand the importance of their role in installing, testing and maintaining effective, reliable, dependable and secure protection systems.
- Project Managers, to ensure that the project implementation provides a safe and efficient implementation of electrical design.
- Fundamental Principles of Power System Protection
- Fault Studies and Sequence Components
- Over Current & Earth Fault Protection
- Instrument Transformers to IEC 60044
- Introduction to Distance Protection
- Protection Signalling
- Advanced Applications of Distance Protection
- High Impedance Differential Protection
- Transformer Protection
- Low Impedance Busbar Differential Protection
- Feeder Digital Current Differential Protection
- Induction Motor Protection
- Generator Protection
Course Faculty - Barrie Moor
Mr. Barrie Moor
Principal Engineer at Power System Protection Training, Australia
- 39 years in the Queensland Electricity
- Transmission and Generation Supply Industries
- 30 years in the discipline of Protection Design
- 20 years in Post Graduate Electricity Supply System Training
With over 39 years experience in the Queensland electricity supply industry, our principal engineer, the seminar author and presenter, Barrie Moor, has been involved in the design, coordination and implementation of protection schemes associated with Queensland’s HV and EHV transmission systems since 1981. Barrie also has extensive experience with the protection of large generating plants having had responsibility for the protection of generators at many of Queensland’s major power stations.
Fundamental Principles of Power System
Protection Fault Studies and Sequence Components
Over Current & Earth Fault Protection
Instrument Transformers to IEC 60044
Unique Features with powerEDGE Training
• Pre-Course Questionnaire to help us focus on your learning objectives
• Detailed Course & Reference Manual for Continuous Learning and Sharing
• Practical Exercises & Case Examples to better understand the principles
• Limited class size to ensure One-to-One Interactivity
• Assessment at the end of the course to help you develop a Personal Action Plan