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DTSTAMP:20211122T211224Z
UID:B9BFBEC2-9D1C-4635-A6F2-BCA947383FEB
DTSTART;TZID=America/New_York:20211118T120000
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DESCRIPTION:Abstract.\n\nCharge accumulation on the insulation surface dist
 orts the local electric field\, triggers partial discharge and flashover\,
  which poses potential threats to the insulation system of the high voltag
 e apparatus. It is an urgent and important requirement to tailor surface c
 harge behaviors of dielectrics for modern electrical and electronic device
 s.\n\nIn this report\, we introduce two approaches for tailoring the surfa
 ce charge behaviors\, which are achieved by converting the hazard surface 
 charges into functional charges by means of material modification. To be m
 ore specific\, a novel surface charge adaptively controlling spacer used i
 n DC GIL is developed\, and a surface partial discharge mitigation method 
 is put forward.\n\nWe do hope that the two surface charge tailoring approa
 ches mentioned in this report may shed some light on the novel insulation 
 design of DC electric power equipment\, DC generators\, power electronic d
 evices\, printed circuit board (PCB) layout\, and various integrated elect
 rostatic sensors and actuators.\n\nSpeaker(s): Dr. Chuanyang Li\, \n\nSche
 nectady\, New York\, United States\, Virtual: https://events.vtools.ieee.o
 rg/m/285686
LOCATION:Schenectady\, New York\, United States\, Virtual: https://events.v
 tools.ieee.org/m/285686
ORGANIZER:william.newman@ieee.org
SEQUENCE:5
SUMMARY:Tailoring Insulation Surface Charge Behaviors: From Hazards to Func
 tionality
URL;VALUE=URI:https://events.vtools.ieee.org/m/285686
X-ALT-DESC:Description: <br /><h1>Abstract.</h1>\n<p>Charge accumulation on
  the insulation surface distorts the local electric field\, triggers parti
 al discharge and flashover\, which poses potential threats to the insulati
 on system of the high voltage apparatus. It is an urgent and important req
 uirement to tailor surface charge behaviors of dielectrics for modern elec
 trical and electronic devices.</p>\n<p>In this report\, we introduce two a
 pproaches for tailoring the surface charge behaviors\, which are achieved 
 by converting the hazard surface charges into functional charges by means 
 of material modification. To be more specific\, <strong>a novel surface ch
 arge adaptively controlling spacer used in DC GIL is developed\, and</stro
 ng> <strong>a surface partial discharge mitigation method is put forward.<
 /strong></p>\n<p>We do hope that the two surface charge tailoring approach
 es mentioned in this report may shed some light on the novel insulation de
 sign of DC electric power equipment\, DC generators\, power electronic&nbs
 p\;devices\, printed circuit board (PCB) layout\, and various integrated e
 lectrostatic sensors and actuators.</p>\n<p>&nbsp\;</p>\n<p>&nbsp\;</p>
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