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DTSTAMP:20240904T203744Z
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DTSTART;TZID=America/Los_Angeles:20240904T110000
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DESCRIPTION:As synchronous generators continue to be replaced by inverter-i
 nterfaced renewable energy resources to pave the way for grid decarbonizat
 ion\, the dynamic behavior of the bulk power grid is changing. In the past
  few years\, system operators with high levels of inverter-based resource 
 (IBR) deployment in their footprints have reported increased occurrences o
 f dynamic performance issues and forced oscillations. Such experiences hav
 e motivated numerous model-based studies to anticipate stability issues in
  the evolving grid with high IBR penetration. Advanced time-synchronized m
 easurements (synchrophasors and synchrowaveforms) are key in complementing
  these studies that may not faithfully recreate interactions among synchro
 nous resources and heterogeneous inverter fleets. In this talk\, we will p
 rovide a brief overview of how high-resolution time-synchronized measureme
 nts have been used to diagnose IBR performance issues with wide-area relia
 bility implications\, how they can be effectively used in conjunction with
  model-based studies\, and some future research directions.\n\nCo-sponsore
 d by: University of California\, Riverside\n\nSpeaker(s): Shuchismita Bisw
 as\, Kaustav Chatterjee\n\nVirtual: https://events.vtools.ieee.org/m/43115
 0
LOCATION:Virtual: https://events.vtools.ieee.org/m/431150
ORGANIZER:mail@maxcherubin.com
SEQUENCE:12
SUMMARY:Advanced Measurements: The Key to Understanding Dynamics in an Evol
 ving Grid
URL;VALUE=URI:https://events.vtools.ieee.org/m/431150
X-ALT-DESC:Description: <br /><p class="MsoNormal"><span style="font-size: 
 14pt\; line-height: 107%\;">As synchronous generators continue to be repla
 ced by inverter-interfaced renewable energy resources to pave the way for 
 grid decarbonization\, the dynamic behavior of the bulk power grid is chan
 ging. In the past few years\, system operators with high levels of inverte
 r-based resource (IBR) deployment in their footprints have reported increa
 sed occurrences of dynamic performance issues and forced oscillations. Suc
 h experiences have motivated numerous model-based studies to anticipate st
 ability issues in the evolving grid with high IBR penetration. Advanced ti
 me-synchronized measurements (synchrophasors and synchrowaveforms) are key
  in complementing these studies that may not faithfully recreate interacti
 ons among synchronous resources and heterogeneous inverter fleets. In this
  talk\, we will provide a brief overview of how high-resolution time-synch
 ronized measurements have been used to diagnose IBR performance issues wit
 h wide-area reliability implications\, how they can be effectively used in
  conjunction with model-based studies\, and some future research direction
 s. </span></p>
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