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VISUALIZATION Why we need Synchrophasor Technology in Operations

VISUALIZATION Why we need Synchrophasor Technology in Operations. John Ballance – EPG Presented to ERCOT Phasor Technology Workshop – November 16, 2012. Lessons Learned from Major Blackouts. Lack of Wide Area View Lack of Situational Awareness Health of the Grid

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VISUALIZATION Why we need Synchrophasor Technology in Operations

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  1. VISUALIZATIONWhy we need Synchrophasor Technology in Operations John Ballance – EPG Presented to ERCOT Phasor Technology Workshop – November 16, 2012

  2. Lessons Learned from Major Blackouts Lack of Wide Area View Lack of Situational Awareness Health of the Grid Lack of Time-synchronized and High Resolution Data System Models Inaccurate and Inadequate

  3. WECC August 10, 1996 Event

  4. Inaccurate Dynamic ModelsWECC 1996 Breakup

  5. 2003 Italy Blackout Transmission line between Italy and Switzerland trips, storm related Event starts a cascading event and the loss of all transmission lines into Italy 56 million people impacted for up to 12 hours

  6. 2003 Italy Blackout Transmission line between Italy and Switzerland trips, storm related Event starts a cascading event and the loss of all transmission lines into Italy 56 million people impacted for up to 12 hours

  7. EI August 14, 2003 Blackout

  8. EI August 14, 2003 Blackout Cleveland Separation • 3:05 pm • 12 degrees • 3:30 pm • Phase Angles Diverged Prior To Blackout • 25 degrees • 4:10 pm • 45 degrees • 115 degrees • Note: Angles are based on data from blackout investigation. Angle reference is Browns Ferry.

  9. EU November 4, 2006 Outage • Poorly planned 400 kV transmission outage led to a cascading event • System could not withstand an N-1 event • Outage impacted 15 million European households • Full restoration in 2 hours

  10. Sept. 8, 2011 Pacific Southwest OutageImpacted Area Customers Impacted – 2.7 Million Load Interrupted – 7,835 MW Generation Lost – 6,982 MW Customer Outage Time – 6 to 12 hrs.

  11. Sept. 8, 2011 Pacific Southwest Outage Loading on SCE-SDG&E Tie CFE Gen Trip System Separation Limit SCE-SDG&E Tie Trip IID Tie Trip IID Transformer Trip CFE Gen Trip APS Tie Trip Path 44 Rating Blackout – 15:38:38 Event Starts – 15:27:39 Based on Preliminary Data

  12. July 31, 2012 – Outage in India

  13. July 31, 2012 – Outage in India Impacted Areas Customers Impacted – 600 Million Load Interrupted – 48,000 MW Outage Time – 2 to 8 hrs. There were forty six (46) 400 kV and 765 kV line outages prior to event in the NR, ER and WR

  14. Industry Drivers and Challenges for Grid Operations Greenhouse Gas Reduction Renewable Performance Standards Transmission Siting and Project Delays Operating Challenge - Greater stress on the transmission system -- need for new technologies and real time tools Situational Awareness – Monitor the health of the grid and its dynamic performance in real time Wide area visualization - Common information and displays and time synchronized data – available simultaneously to multiple control rooms Monitoring key metrics - High resolution monitoring of grid performance metrics and dynamics

  15. NERC Perspective on Synchrophasor Technology Synchrophasor technology has significant reliability benefits Operational Monitoring – Wide Area Visualization Bulk Power System Control System Analysis and Planning Smart Grid Integration Potential to improve operational planning and control room operations NERC GOAL Move phasor technology into mainstream of industry acceptance and use Remarks at NASPI Oct 5, 2010

  16. Value of Phasor Technology Wide Area Real Time Situational Awareness Monitor Health of the Grid, Prevent Blackouts, Reduce Blackout Footprint, Enable Faster Recovery Real Time Monitoring and Visualization of Grid Metrics Time-synchronized and High Resolution Data – Monitor Grid Dynamics in Real Time Improve Planning Models and State Estimators

  17. ERCOT – Phasor Network

  18. Questions?

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