Importance of Using Synchrophasor Technology in Managing the Grid.- Impact of Phasor Measurement Data Quality in Grid Operations.- Testing and Validation of Synchrophasor Devices and Applications.- Synchrophasor Technology at BPA: From Wide Area-Monitoring to Wide-Area Control.- Use of Synchrophasor Measurement Technology in China.- Identification of Signature Oscillatory Modes in ERCOT by Mining of Synchrophasor Data.- Oscillation Detection in Real-Time Operations at ERCOT.- Oscillation Detection and Mitigation Using Synchrophasor Technology in the Indian Power Grid.- Experiences of Oscillation Detection and Mitigation in Grid Operations at PEAK RC.- Online Oscillation Management at ISO New England.- Operational use of Synchro-phasor Technology for Power System Oscillations Monitoring at California ISO.- Operational Use of Synchro-phasor Technology for Wide-Area Power System Phase Angle Monitoring at California ISO.- Synchrophasor-based Linear State Estimation Techniques and Applications.- Implementation of Synchrophasor-based Linear State Estimator for Real-time Operation.- Post-Event Analysis in the ERCOT system Using Synchrophasor Data.- Validation and Tuning of Remedial Action Schemes in Indian Grid Operations Using Synchrophasor Technology.- Indian Power System Operation Utilizing Multiple HVDC and WAMS.- Model Validation using Synchrophasor Technology.- A Software Suite for Power System Stability Monitoring Based on Synchrophasor Measurements.- A Cloud-Hosted Synchrophasor Data Sharing Platform.
Sarma Nuthalapati is currently working as Principal EMS Network Applications Engineer for Peak Reliability (Peak) in Vancouver, WA, USA. Peak’s Reliability Coordinator Area includes all or parts of 14 western states, British Columbia, and the northern portion of Baja California, Mexico. Sarma supports Energy Management Systems (EMS) network applications such as State Estimation, Real-time Contingency Analysis, Remedial Action Schemes, Forced Outage Detection, and others that are critical to providing wide area situational awareness in control center operations. He is also an Adjunct Professor in the Department of Electrical Engineering at Texas A&M University, College Station, TX, USA. He has been with Electric Reliability Council of Texas, Inc. (ERCOT), USA, in the Advanced Network Applications Group of the Operations Support Department from August 2007 to March 2016 and was involved in the area of network applications and involved in a Synchrophasor Project funded by the US Department of Energy (DOE) under the Smart Grid Initiatives Grants. He is currently the Chair of the IEEE Task Force on Real Time Contingency Analysis. He also actively participates in the North American SynchroPhasor Initiative (NASPI) Working Group meetings and was given NASPI Control Room Solutions Task Team Most Valuable Player (MVP) Award for ‘being a leading organizer and contributor to the Control Room Solutions Task Team (CRSTT) and the NERC Synchronized Measurement Subcommittee and a public champion for Synchrophasor Technology’. He is a senior member of IEEE and a member of IEEE Power and Energy Society (PES). He is also a distinguished lecturer in the IEEE PES Distinguished Lecturer Program. He received BTech (Electrical Engineering) and MTech (Power Systems Engineering) degrees from National Institute of Technology, Warangal, (formerly called as Regional Engineering College, Warangal), India, in 1983 and 1986 respectively. He obtained his PhD degree from Indian Institute of Technology, Delhi, India, in 1995. He carried out his PhD work in the area of 'Network Reconfiguration in Distribution Systems' under the supervision of the late Dr. K.S. Prakasa Rao. The research work involved developing new algorithms for various aspects of network reconfiguration such as reconfiguration for Service Restoration, Load Balancing and Loss Minimization in Distribution Systems. These methods are very useful in the context of Smart Grids and Distribution Automation.
This book brings together successful stories of deployment of synchrophasor technology in managing the power grid. The authors discuss experiences with large scale deployment of Phasor Measurement Units (PMUs) in power systems across the world, enabling readers to take this technology into control center operations and develop good operational procedures to manage the grid better, with wide area visualization tools using PMU data.
· Provides a single-source reference to the practical applications of Synchrophasor technology in operating the power grid;
· Includes real case studies from utilities that have deployed the technology;
· Offers an international perspective on the use of data obtained from phasor measurement units, in order to manage power grids.