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The Department of Electrical Engineering at the Cape Peninsula University of Technology (CPUT) invites specialists from Eskom, municipalities, design institutions, consultants, contractors, vendors and universities to attend a two day seminar on:
IEC61850 developments and applications for substation automation
Presented by: Dr. Alexander Apostolov, adjunct professor, CPUT
Sponsored by: Alectrix and Omicron
Submitted for accredited for two ECSA CPD points DATES: Tuesday 21 & Wednesday 22 September 2010
TIME: 08h30 to 16h30
VENUE: Conference Room, IT Building, Cape Peninsula University of Technology (Bellville Campus), Symphony Way, Bellville, Cape Town
COST: R1500 for per day for participants from universities; R2000 per day for other participants; including all documentation, food and refreshments.
The International standard for substation automation systems IEC61850 defines the communication between devices in the substations and determines the related systems requirements. It supports both substation automation functions and their engineering. The technical approach applied to development of IEC61850 makes it flexible and future proof.
There are many substation automation protocols worldwide but IEC61850 is the only one that supports systems based on multi-vendor Intelligent Electronic Devices (IEDs) networked together to provide protection, monitoring, automation, metering, and control functions. The interoperability of equipment and systems is ensured by providing compatibility between interfaces, protocols and data models.
Capability to share data and control commands between multiple IEDs results in new distribution protection, control and automation function.
The standard is developed further to provide communication between the substations, which is critical during power outages, and to ensure integration of equipment and systems for controlling the electric power process into complete system solutions in order to support utilities' processes.
To achieve maximum benefits from IEC61850 it is essential to understand what it has to offer, how it is different from previous standards and what it provides to the end user.
The Seminar "IEC61850 developments and applications" extends the knowledge acquired during the 2009 seminar "IEC 61850 fundamentals, applications and benefits" by emphasising on the latest developments, advanced methods of engineering, GOOSE and sampled values based protection applications, time synchronisation, testing scenarios and practical demonstration using compatible IEDs.
PROGRAMME
The two-day programme comprises fifteen 45-minute lectures, interspersed with refreshment and lunch breaks.
Day 1: Tuesday 21 September 2010
Lecture 1: Components of the IEC61850 standard
Lecture 2: Latest Developments of IEC61850 working group in 2009-2010
Lecture 3: Extended aspects of engineering (advanced tools for setup and configuration as defined in IEC61850-6)
Lecture 4: Services for usage in SCADA applications (control, reporting, etc.)
Lecture 5: GOOSE based protection applications
Lecture 6: Sampled values protection and related applications
Lecture 7: Application of IEC61850 for protection communication between substations
Lecture 8: Simulation and analysis of GOOSEs for advanced users
Day 2: Wednesday 22 September 2010
Lecture 9: IEC61850 monitoring tools - working with data models and dynamic reports
Lecture 10: Other standards for power generation and security
Lecture 11: Migration aspects (IEC61850 with other protocols such as IEC60870-5-10x)
Lecture 12: Other related international standard (IEEE1588 standard for synchronising clocks)
Lecture 13: Test of conformity (IEC61850-10, terms and appreciation)
Lecture 14: Testing scenarios for testing protection systems using GOOSE and sampled values according to IEC61850
Lecture 15: Practical demonstration with IEC61850 compatible relays
RESUME OF PRESENTER Dr. Alexander Apostolov received MSc degree in electrical rngineering, MSc in applied mathematics and PhD from the Technical University in Sofia, Bulgaria. He has worked for fourteen years in the protection & control section of Energoproject Research and Design Institute, Sofia, Bulgaria.
From 1990 to 1994 he was lead engineer in the protection engineering group, New York State Electric & Gas where he worked on the protection of the six-phase line, application of microprocessor relays, programmable logic and artificial intelligence in protection. From 1994 to 1995 he was manager of relay applications engineering at Rochester Integrated Systems Division. From 1995 to 1996 he was Principal Engineer at Tasnet. From 1996 to 2006 he was principal engineer for Areva T&D Automation. He is presently principal engineer for Omicron Electronics in Los Angeles, USA.
Dr. Apostolov is an IEEE fellow and member of the Power Systems Relaying Committee and Substations C0 Subcommittee. He is the past Chairman of the Relay Communications Subcommittee, serves on multiple IEEE PES working groups and is chairman of Working Group C9: Guide for abnormal frequency load shedding and restoration.
He has been actively involved for more than ten years in the development of UCA 2 and IEC61850. He is member of IEC TC57 Working Groups 10, 17, 18 and. He is chairman of the technical publications subcommittee of the UCA International Users Group.
He is member of CIGRE and works on CIGRE WG B5.07, B5.09 and B5.36. He is Convener of WG B5.13: Acceptable functional integration and B5.27 standard protection schemes.
He holds four patents and has authored and presented more than 300 technical papers.
Dr. Apostolov is also the editor-in-chief of the magazine, PAC World - a global forum of the protection, automation and control industry.
FURTHER INFORMATION AND REGISTRATION For further information, registration and payment, please contact: Fax: 021 95- 6117 | |
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