BEGIN:VCALENDAR
VERSION:2.0
PRODID:IEEE vTools.Events//EN
CALSCALE:GREGORIAN
BEGIN:VTIMEZONE
TZID:America/Los_Angeles
BEGIN:DAYLIGHT
DTSTART:20260308T030000
TZOFFSETFROM:-0800
TZOFFSETTO:-0700
RRULE:FREQ=YEARLY;BYDAY=2SU;BYMONTH=3
TZNAME:PDT
END:DAYLIGHT
BEGIN:STANDARD
DTSTART:20261101T010000
TZOFFSETFROM:-0700
TZOFFSETTO:-0800
RRULE:FREQ=YEARLY;BYDAY=1SU;BYMONTH=11
TZNAME:PST
END:STANDARD
END:VTIMEZONE
BEGIN:VEVENT
DTSTAMP:20260327T163011Z
UID:3BA3DD42-3DC2-4FDD-9528-E38165E0A7F1
DTSTART;TZID=America/Los_Angeles:20260528T170000
DTEND;TZID=America/Los_Angeles:20260528T181500
DESCRIPTION:[]\n\nThe past decade has seen a significant rise in the prolif
 eration of roof-top photovoltaic (PV) systems with storage units at reside
 ntial sites. This has affected how power engineers and researchers have pr
 eviously studied distribution systems as passive networks. With the introd
 uction of these local distributed energy resources\, a distribution system
  has become part of an active network. This modernization of the power dis
 tribution network brings along with itself a number of key issues that nee
 d to be proactively tackled by the local utilities. In North America\, the
  concept of central generation has transformed into local distributed gene
 ration (DG) due to the rise of family-owned rooftop PV systems\, storage d
 evices\, and electric vehicles. With this phenomenon reshaping the current
  perspective of distribution networks\, the local generation and storage c
 apacities\, with their respective controllers\, allow for these DG units t
 o be grouped together to form single-phase microgrids most commonly referr
 ed to as residential microgrids. This presentation looks into residential 
 microgrids\, which accommodate multiple embedded generation and energy sto
 rage units while balancing generation and loading in each phase to achieve
  overall three-phase system balance.\n\nAbout the Speaker:\n\nSyed Ahmed R
 aza Naqvi received his B.Sc. degree in Electronics Engineering from Nation
 al University of Science and Technology School of Electrical Engineering a
 nd Computer Sciences (NUST-SEECS)\, Pakistan in 2009. He was recipient of 
 Rector’s Gold Medal award for the Best Final Year Project. He completed 
 his M.Sc. degree in Electrical Engineering from King Fahd University of Pe
 troleum and Minerals (KFUPM)\, Saudi Arabia in 2012 and Ph.D. degree from 
 the University of Western Ontario (UWO)\, London\, Ontario\, Canada in 202
 1. From 2012-2014 he worked as an Instructor at Prince Mohammad Bin Fahd U
 niversity in Electrical Engineering department where he worked on sustaina
 ble energy potential in KSA and on system identification algorithms in pow
 er and communication systems. He was the recipient of London Hydro scholar
 ship in 2015 from UWO. Between 2021 and 2022\, he worked as a Simulation S
 pecialist for Electrical System Testbenches as part of Application eXperti
 se and Electrical Simulation (AXES) team at OPAL-RT Technologies\, Montrea
 l\, Canada\, where he was involved in the development and testing of real-
 time models pertaining to microgrids\, AC-DC inverters and DC-DC converter
 s on OPAL-RT’s testbenches and power amplifiers. He is currently working
  as a Senior Power Electronics Modeling Engineer at TAE Power Solutions\, 
 California\, USA\, as part of the Power Solutions team. He is currently in
 volved in designing and commissioning of high power and high current DC po
 wer supplies for Fusion related research at TAE Technologies Inc. Syed Ahm
 ed Raza Naqvi has published several journal and conference papers in reput
 able IEEE journals and conferences. His main areas of research include dyn
 amic and steady state control of power systems\, power management and cont
 rol for PV/battery based residential microgrids\, design of high power and
  high current DC power supplies\, and application of system identification
  techniques in non-linear systems.\n\nVirtual: https://events.vtools.ieee.
 org/m/551083
LOCATION:Virtual: https://events.vtools.ieee.org/m/551083
ORGANIZER:srazanaq@uwo.ca
SEQUENCE:24
SUMMARY:IEEE PES Lecture: Power Management and Control to Balance Residenti
 al Microgrids with Individual Phase-wise Generation and Storage
URL;VALUE=URI:https://events.vtools.ieee.org/m/551083
X-ALT-DESC:Description: <br /><p><br><img style="display: block\; margin-le
 ft: auto\; margin-right: auto\;" src="https://events.vtools.ieee.org/vtool
 s_ui/media/display/06e0bce6-c310-46f1-b63a-22d828ed4fda" alt="" width="756
 " height="86"></p>\n<p class="x_MsoListParagraph"><span style="font-size: 
 12.0pt\; font-family: 'Times New Roman'\,serif\; mso-fareast-font-family: 
 PMingLiU\; mso-font-kerning: 1.0pt\; mso-ansi-language: EN-US\; mso-fareas
 t-language: ZH-TW\; mso-bidi-language: AR-SA\;">The past decade has seen a
  significant rise in the proliferation of roof-top photovoltaic (PV) syste
 ms with storage units at residential sites. This has affected how power en
 gineers and researchers have previously studied distribution systems as pa
 ssive networks. With the introduction of these local distributed energy re
 sources\, a distribution system has become part of an active network. This
  modernization of the power distribution network brings along with itself 
 a number of key issues that need to be proactively tackled by the local ut
 ilities. In North America\, the concept of central generation has transfor
 med into local distributed generation (DG) due to the rise of family-owned
  rooftop PV systems\, storage devices\, and electric vehicles. With this p
 henomenon reshaping the current perspective of distribution networks\, the
  local generation and storage capacities\, with their respective controlle
 rs\, allow for these DG units to be grouped together to form single-phase 
 microgrids most commonly referred to as residential microgrids. This prese
 ntation looks into &nbsp\;residential microgrids\, which accommodate multi
 ple embedded generation and energy storage units while balancing generatio
 n and loading in each phase to achieve overall three-phase system balance.
 </span></p>\n<p><span style="text-decoration: underline\; font-size: 12pt\
 ;"><span style="color: rgb(0\, 0\, 0)\; text-decoration: underline\;"><str
 ong>About the Speaker:</strong></span></span></p>\n<p class="xmsonormal" s
 tyle="margin-bottom: 12.0pt\;"><img src="https://events.vtools.ieee.org/vt
 ools_ui/media/display/1f6181d3-e111-49fc-928b-2e432de0e747" width="199" he
 ight="276"></p>\n<div><span style="font-family: 'times new roman'\, times\
 , serif\;"><strong>Syed Ahmed Raza Naqvi </strong>received his B.Sc. degre
 e in Electronics Engineering from National University of Science and Techn
 ology School of Electrical Engineering and Computer Sciences (NUST-SEECS)\
 , Pakistan in 2009. He was recipient of Rector&rsquo\;s Gold Medal award f
 or the Best Final Year Project. He completed his M.Sc. degree in Electrica
 l Engineering from King Fahd University of Petroleum and Minerals (KFUPM)\
 , Saudi Arabia in 2012 and Ph.D. degree from the University of Western Ont
 ario (UWO)\, London\, Ontario\, Canada in 2021. </span><span style="font-f
 amily: 'times new roman'\, times\, serif\;">From 2012-2014 he worked as an
  Instructor at Prince Mohammad Bin Fahd University in Electrical Engineeri
 ng department where he worked on sustainable energy potential in KSA and o
 n system identification algorithms in power and communication systems. He 
 was the recipient of London Hydro scholarship in 2015 from UWO. Between 20
 21 and 2022\, he worked as a Simulation Specialist for Electrical System T
 estbenches as part of Application eXpertise and Electrical Simulation (AXE
 S) team at OPAL-RT Technologies\, Montreal\, Canada\, where he was involve
 d in the development and testing of real-time models pertaining to microgr
 ids\, AC-DC inverters and DC-DC converters on OPAL-RT&rsquo\;s testbenches
  and power amplifiers.&nbsp\; </span><span style="font-family: 'times new 
 roman'\, times\, serif\;">He is currently working as a Senior Power Electr
 onics Modeling Engineer at TAE Power Solutions\, California\, USA\, as par
 t of the Power Solutions team. He is currently involved in designing and c
 ommissioning of high power and high current DC power supplies for Fusion r
 elated research at TAE Technologies Inc. </span><span style="font-family: 
 'times new roman'\, times\, serif\;">Syed Ahmed Raza Naqvi has published s
 everal journal and conference papers in reputable IEEE journals and confer
 ences. His main areas of research include dynamic and steady state control
  of power systems\, power management and control for PV/battery based resi
 dential microgrids\, design of high power and high current DC power suppli
 es\, and application of system identification techniques in non-linear sys
 tems.</span></div>
END:VEVENT
END:VCALENDAR