This book offers a compact guide to IEC61850 systems, including wide-area implementation, as it has been applied to real substations worldwide. It utilises technical brochures and papers based on existing practice of IEC61850 systems that give stakeholders from different disciplines an understanding of systems in use, their features, how they are applied, and approach for implementation.
The book offers a holistic practical view considering all relevant interfaces and possibilities. It includes the different applications, practical implementation considerations and choices made for IEC61850 PACS (Protection Automation & Control System) designs. Power system engineers, planners, technicians and researchers will find the book useful for exploring, developing and delivering these systems.
This second edition of the book includes publication quality corrections. The technical content remains unaltered.
Innehållsförteckning
Introduction to End-to-End IEC 61850 Substation Systems (all channels).- Practical Existing and Emerging Primary Networks (optical CT/VTs, inter-locking, hot standby, RAS).- IEC 61850 Standards and End-to-End User Groups.- Communication Architecture and Services (Deterministic).- Design and Planning of IEC 61850 Substation Systems.- Implementation of IEC 61850 Functional Substation Schemes.- Testing and Commissioning of Existing and Practical IEC 61850 Substation Solutions.- Maintenance and Asset Management of Practical IEC 61850 SAS.- Timing and Redundancy for IEC 61850 Sub-Systems.- Vendor Interoperability of IEC 61850 Substation Systems (e.g. Scottish Power).- Process-Bus Implementation of IEC 61850 Substation Solutions.- Sampled Value: Application of IEC 61850-9-2 for CT/VT in IEC 61869-9.- Integration of PMU and wide-area solutions with IEC 61850 Substation Systems.- Access and Cyber-Security Issues with IEC 61850 Substation Systems.- Fault Location and Other Novel Applications Using IEC 61850 Substation Systems.- Local/Remote SCADA and IEC 61850 (Reporting, MMS).- IEC 61850 System and Generation Plants.- IEC 61850 System and Industries/Prosumers.- Potential Future for IEC 61850 Substation Systems (Virtualization, Machine Learning, AI).- Conclusions.
Om författaren
Peter Bishop is presently Principal Protection & Automation Engineer with Transpower NZ Ltd, the transmission utility in New Zealand. He holds an Electrical and Electronic Engineering Degree from the University of Canterbury (NZ) and is a Chartered Professional Engineer. He has over twenty-five years’ of experience in power system protection engineering support and management for a transmission utility and protection manufacturer. This experience includes protection operation and application analysis, setting studies, simulation and testing, training, investigations, and project support. He was a member of a cross functional team which travelled internationally gathering experience and information on substation automation for future application for Transpower. In recent years at Transpower, Peter has managed the protection technical support response for power system faults, equipment failures and outages. Peter is the convener of CIGRE Australia B5 mirror panel and has been a cospecial reporter at the 2017 SC B5 colloquium.
Nirmal-Kumar C. Nair received his Ph.D. in Electrical Engineering from Texas A&M University, College Station, USA. He has held several professional and research positions in India, USA and New Zealand (NZ). Currently, he is an Associate Professor at the Department of Electrical, Computer Engineering and Software Engineering at University of Auckland, New Zealand. His research interest includes voltage collapse, resilience, cyber-physical security and special protection schemes. He has contributed to over 270 conference and journal papers, two books and several book chapters. He has been serving as an Executive of CIGRE New Zealand National Committee since 2008, and is also the Technical Chair and Event Manager currently. For CIGRE B5, Nirmal-Kumar is a technical advisor for New Network Requirements, and has been involved in 4 working groups and 2 task forces, along with several papers. He was recognized in 2018 as a CIGRE Distinguished Member.