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DTSTAMP:20241014T045647Z
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DTSTART;TZID=America/Los_Angeles:20241010T181500
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DESCRIPTION:Microgrid Reliability Approach and Modeling\n\nAbstract\n\nMicr
 ogrid refers to a localized group of electricity sources and loads that op
 erates connected to the electric grid or grid-independently in island mode
 . Microgrids are used in powering communities and critical infrastructure 
 such as datacenters to ensure continuous power during grid outage or disru
 ption. It can include various energy sources such as solar panels\, wind t
 urbines\, generators\, fuel cells and batteries. Microgrids enhance the re
 liability and resilience of power supply\, reduce transmission losses and 
 support integration of renewable and clean energy. The reliability of a mi
 crogrid is to provide continuous and stable power supply. In this article 
 we will discuss the resilience of microgrids to tolerate various failures\
 , faults. Key aspects will involve looking at individual component reliabi
 lity\, system architecture\, redundancy and implementation of control stra
 tegies to ensure uninterrupted power supply for critical load.\n\nSpeaker(
 s): Debasmita\, \n\nRoom: Laurel Room\, Bldg: Senior Center (to the left w
 hen entering parking lot)\, 550 E Remington Drive \, Sunnyvale Community C
 enter\, Sunnyvale\, California\, United States\, 94087 
LOCATION:Room: Laurel Room\, Bldg: Senior Center (to the left when entering
  parking lot)\, 550 E Remington Drive \, Sunnyvale Community Center\, Sunn
 yvale\, California\, United States\, 94087 
ORGANIZER:bernhard.hiller@wdc.com
SEQUENCE:32
SUMMARY:Microgrid Reliability Approach and Modeling
URL;VALUE=URI:https://events.vtools.ieee.org/m/431845
X-ALT-DESC:Description: <br /><p class="MsoNormal"><strong><span style="fon
 t-family: 'Aptos'\,sans-serif\;">Microgrid Reliability Approach and Modeli
 ng</span></strong></p>\n<p class="MsoNormal"><span style="font-family: 'Ap
 tos'\,sans-serif\;">Abstract</span></p>\n<p class="MsoNormal"><span style=
 "font-family: 'Aptos'\,sans-serif\;">Microgrid refers to a localized group
  of electricity sources and loads that operates connected to the electric 
 grid or grid-independently in island mode. Microgrids are used in powering
  communities and critical infrastructure such as datacenters to ensure con
 tinuous power during grid outage or disruption. It can include various ene
 rgy sources such as solar panels\, wind turbines\, generators\, fuel cells
  and batteries. Microgrids enhance the reliability and resilience of power
  supply\, reduce transmission losses and support integration of renewable 
 and clean energy. The reliability of a microgrid is to provide continuous 
 and stable power supply. In this article we will discuss the resilience of
  microgrids to tolerate various failures\, faults. Key aspects will involv
 e looking at individual component reliability\, system architecture\, redu
 ndancy and implementation of control strategies to ensure uninterrupted po
 wer supply for critical load.&nbsp\;&nbsp\;</span></p>
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