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DTSTART:20231105T010000
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DTSTAMP:20231215T155614Z
UID:E084F05C-1C80-4098-9D4E-D8004ACE5D76
DTSTART;TZID=America/New_York:20231025T100000
DTEND;TZID=America/New_York:20231025T113000
DESCRIPTION:The transition to a net-zero energy system requires a massive c
 hange in the way that electricity is produced\, transported\, and used\; t
 he power electronic converters are the core of this paradigm-shifting\, an
 d the control techniques used on them have a primary influence in the powe
 r system dynamic behaviour. The most recent advances in more flexible comm
 utation devices and sophisticated control mechanisms\, together with appro
 priate practices and grid codes\, are making the voltage source converter 
 (VSC) interfaced technologies a precious component of the operation of mod
 ern and future power systems and pavement the secure transition to a zero-
 carbon society. The so-called grid forming control technique applied to th
 e VSC of inverter-based resources emerged as a promising element to accele
 rate the growth to the net zero energy system. However\, there are plenty 
 of positions regarding the definitions of grid forming control and their t
 ypes. The keynote starts by presenting the main features of the synchronou
 s machine and the services that the machine can naturally offer\; then\, t
 he power electronic converter is introduced\, showing the main features. T
 hen\, the functionality and services of grid gorming are presented\, and t
 he most representative control techniques presented in the literature are 
 presented. The keynote shows some of the implementations of grid-forming c
 ontrol techniques using offline simulation (DIgSILENT PowerFactory) and th
 en accurate time simulation (OPAL-RT and Typhoon HIL). The keynote finishe
 d by presenting the current specification of grid forming control shown in
  the grid code of Great Britain and the proposed aspects in Australia.\n\n
 Co-sponsored by: Cognition and Control in Complex Systems Lab - University
  of Florida\n\nSpeaker(s): Francisco\, Francisco\n\nVirtual: https://event
 s.vtools.ieee.org/m/376075
LOCATION:Virtual: https://events.vtools.ieee.org/m/376075
ORGANIZER:m.baquedanoaguil@ufl.edu
SEQUENCE:28
SUMMARY:Understading of Grid Forming Control for Inverter-Based Resources: 
 Theory and Practice
URL;VALUE=URI:https://events.vtools.ieee.org/m/376075
X-ALT-DESC:Description: &lt;br /&gt;&lt;p&gt;The transition to a net-zero energy system
  requires a massive change in the way that electricity is produced\, trans
 ported\, and used\; the power electronic converters are the core of this p
 aradigm-shifting\, and the control techniques used on them have a primary 
 influence in the power system dynamic behaviour. The most recent advances 
 in more flexible commutation devices and sophisticated control mechanisms\
 , together with appropriate practices and grid codes\, are making the volt
 age source converter (VSC) interfaced technologies a precious component of
  the operation of modern and future power systems and pavement the secure 
 transition to a zero-carbon society. The so-called grid forming control te
 chnique applied to the VSC of inverter-based resources emerged as a promis
 ing element to accelerate the growth to the net zero energy system. Howeve
 r\, there are plenty of positions regarding the definitions of grid formin
 g control and their types. The keynote starts by presenting the main featu
 res of the synchronous machine and the services that the machine can natur
 ally offer\; then\, the power electronic converter is introduced\, showing
  the main features. Then\, the functionality and services of grid gorming 
 are presented\, and the most representative control techniques presented i
 n the literature are presented. The keynote shows some of the implementati
 ons of grid-forming control techniques using offline simulation (DIgSILENT
  PowerFactory) and then accurate time simulation (OPAL-RT and Typhoon HIL)
 . The keynote finished by presenting the current specification of grid for
 ming control shown in the grid code of Great Britain and the proposed aspe
 cts in Australia.&lt;/p&gt;
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