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DTSTAMP:20230210T174607Z
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DTSTART;TZID=America/New_York:20230208T120000
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DESCRIPTION:The number of power electronics converters connected to electri
 cal networks has been growing exponentially as they are part of all new ge
 neration connected to the grid. While the rapid control and fast electroni
 c switching available with this technology offer flexibility in network op
 eration\, the dynamic interactions between several of them threaten the op
 erational stability of the transmission grid is a concern. It is required 
 to develop a methodology for identifying the risks associated with the sta
 bility and control interaction before a new power electronic device (e.g. 
 Windfarm\, interconnector\, STATCOM) is introduced to the network\n\nThe t
 alk will focus on an analytical framework in impedance domain to quantify 
 the interaction between the new plant and the rest of the network for sett
 ing additional grid connection study specifications which will include det
 ail technical study to check and mitigate the risks associated with new po
 wer electronics interfaced generation. The framework developed is to suppo
 rt MMC technology\, control delay\, system strength and FRT capability of 
 dynamic voltage support devices and windfarm through technical case study 
 conducted at the research group of Bikash Pal at Imperial College London. 
 Future research challenges and opportunities will be highlighted.\n\nSpeak
 er(s): Bikash Pal\, PhD\, FIEEE\, \n\nVirtual: https://events.vtools.ieee.
 org/m/337838
LOCATION:Virtual: https://events.vtools.ieee.org/m/337838
ORGANIZER:kyle.wydner@ieee.org
SEQUENCE:6
SUMMARY:Stability Modeling and Analysis of Converter Driven Power Systems -
  Orlando IEEE PES Virtual Lunch-and-Learn
URL;VALUE=URI:https://events.vtools.ieee.org/m/337838
X-ALT-DESC:Description: <br /><p>The number of power electronics converters
  connected to electrical networks has been growing exponentially as they a
 re part of all new generation connected to the grid. While the rapid contr
 ol and fast electronic switching available with this technology offer flex
 ibility in network operation\, the dynamic interactions between several of
  them threaten the operational stability of the transmission grid is a con
 cern. It is required to develop a methodology for identifying the risks as
 sociated with the stability and control interaction before a new power ele
 ctronic device (e.g. Windfarm\, interconnector\, STATCOM) is introduced to
  the network</p>\n<p>The talk will focus on an analytical framework in imp
 edance domain to quantify the interaction between the new plant and the re
 st of the network for setting additional grid connection study specificati
 ons which will include detail technical study to check and mitigate the ri
 sks associated with new power electronics interfaced generation. The frame
 work developed is to support MMC technology\, control delay\, system stren
 gth and FRT capability of dynamic voltage support devices and windfarm thr
 ough technical case study conducted at the research group of Bikash Pal at
  Imperial College London. Future research challenges and opportunities wil
 l be highlighted.</p>
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