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DTSTAMP:20241218T205722Z
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DTSTART;TZID=America/Montevideo:20241217T170000
DTEND;TZID=America/Montevideo:20241217T190000
DESCRIPTION:Prof. Bikash Pal\n\nProfessor of Power Systems at Imperial Coll
 ege London\n\nAbstract\n\nThe talk will focus on an analytical framework i
 n impedance domain to quantify the interaction between the new plant and t
 he rest of the network for setting additional grid connection study specif
 ications which will include detail technical study to check and mitigate t
 he risks associated with new power electronics interfaced generation. The 
 framework developed is to support MMC technology\, control delay\, system 
 strength and FRT capability of dynamic voltage support devices and windfar
 m through technical case study conducted at the research group of Bikash P
 al at Imperial College London. Future research challenges and opportunitie
 s will be highlighted.\n\nShort bio\n\nBikash Pal is a Professor of Power 
 Systems at Imperial College London (ICL). He is research active in power s
 ystem stability\, control\, and estimation. Currently he is leading a six 
 university UK-China research consortium on Resilient Operation of Sustaina
 ble Energy Systems (ROSES) as part of EPSRC-NSFC Programme on Sustainable 
 Energy Supply. He led UK-China research consortium project on Power networ
 k stability with grid scale storage (2014-2017): His research is conducted
  in strategic partnership with ABB\, SIEMENS\, GE Grid Solutions\, UK\, an
 d National Grid\, UK. UK Power Networks. SIEMENS R&D collaborated with him
  to develop fast power flow and volt-var control tools in [Spectrum Power]
 (https://new.siemens.com/global/en/products/energy/energy-automation-and-s
 mart-grid/grid-control/advanced-distribution-management.html)\, an advance
 d module for distribution management system solution from SIEMENS. This is
  now commissioned in distribution control centres in Columbia\, Bosnia Nor
 way and Azerbaijan serving 15 million customers in these countries. He com
 missioned sequel of projects with him to analyse and solve wind farm HVDC 
 grid interaction problems (2013-2019).\n\nProf Pal was the chief technical
  consultant for a panel of experts appointed by the UNFCCC CDM (United Nat
 ions Framework Convention on Climate Change Clean Development Mechanism). 
 He has offered trainings in Chile\, Qatar\, UAE\, Malaysia and India in po
 wer system protections\, stability and control topics. He has developed an
 d validated a prize winning 68-bus power [system model](http://www.sel.ees
 c.usp.br/ieee/NETS68/New_England_New_York_68_Bus_System_study_report.pdf)\
 , which now forms a part of IEEE Benchmark Systems as a standard for resea
 rchers to validate their innovations in stability analysis and control des
 ign. He was the Editor-in-Chief of IEEE Transactions on Sustainable Energy
  (2012-2017) and Editor-in-Chief of IET Generation\, Transmission and Dist
 ribution (2005-2012). He is Vice President\, PES Publications (2019-2023).
  In 2016\, his research team won the President’s outstanding research te
 am award at Imperial College London (ICL). He is Fellow of IEEE for his co
 ntribution to power system stability and control. He is Fellow of The Roya
 l Academy of engineering\, UK for the impact of his contribution to the fi
 eld.  He is an IEEE Distinguished Lecturer in Power distribution system es
 timation and control.  He has published about 125 papers in IEEE Transacti
 ons and authored four books in power system modelling\, dynamics\, estimat
 ions and control. He was Otto Monsted Professor at Denmark Technical Unive
 rsity (DTU) (2019) and Mercator Professor sponsored by German Research Fou
 ndation (DFG) at University of Duisburg-Essen in 2011.\n\nCo-sponsored by:
  Departamento de Potencia\, Instituto de Ingeniería Eléctrica\, Facultad
  de Ingeniería\, UDELAR\, Uruguay (https://iie.fing.edu.uy/)\n\nRoom: 703
 \, Bldg: Facultad de Ingeniería\, Universidad de la República\, Salón R
 ojo - 7o piso\, Montevideo\, Montevideo\, Uruguay\, Virtual: https://event
 s.vtools.ieee.org/m/444461
LOCATION:Room: 703\, Bldg: Facultad de Ingeniería\, Universidad de la Rep
 ública\, Salón Rojo - 7o piso\, Montevideo\, Montevideo\, Uruguay\, Virt
 ual: https://events.vtools.ieee.org/m/444461
ORGANIZER:g.casaravilla@ieee.org
SEQUENCE:193
SUMMARY:Seminar: Stability Modelling and Analysis of Converter Driven Power
  System
URL;VALUE=URI:https://events.vtools.ieee.org/m/444461
X-ALT-DESC:Description: <br /><h1 style="text-align: center\;">Prof. Bikash
  Pal</h1>\n<h2 style="text-align: center\;"><img src="https://events.vtool
 s.ieee.org/vtools_ui/media/display/926b11a7-e3d9-4d00-95e6-1f4798301751"><
 /h2>\n<h2 style="text-align: center\;">Professor of Power Systems at Imper
 ial College London</h2>\n<h3 style="text-align: center\;">Abstract</h3>\n<
 p style="text-align: center\;">The talk will focus on an analytical framew
 ork in impedance domain to quantify the interaction between the new plant 
 and the rest of the network for setting additional grid connection study s
 pecifications which will include detail technical study to check and mitig
 ate the risks associated with new power electronics interfaced generation.
  The framework developed is to support MMC technology\, control delay\, sy
 stem strength and FRT capability of dynamic voltage support devices and wi
 ndfarm through technical case study conducted at the research group of Bik
 ash Pal at Imperial College London. Future research challenges and opportu
 nities will be highlighted.</p>\n<h3 style="text-align: center\;">Short bi
 o</h3>\n<p style="text-align: center\;">Bikash Pal is a Professor of Power
  Systems at Imperial College London (ICL). He is research active in power 
 system stability\, control\, and estimation. Currently he is leading a six
  university UK-China research consortium on Resilient Operation of Sustain
 able Energy Systems (ROSES) as part of EPSRC-NSFC Programme on Sustainable
  Energy Supply. He led UK-China research consortium project on Power netwo
 rk stability with grid scale storage (2014-2017): His research is conducte
 d in strategic partnership with ABB\, SIEMENS\, GE Grid Solutions\, UK\, a
 nd National Grid\, UK. UK Power Networks. SIEMENS R&amp\;D collaborated wi
 th him to develop fast power flow and volt-var control tools in <a href="h
 ttps://new.siemens.com/global/en/products/energy/energy-automation-and-sma
 rt-grid/grid-control/advanced-distribution-management.html">Spectrum Power
 </a>\, an advanced module for distribution management system solution from
  SIEMENS. This is now commissioned in distribution control centres in Colu
 mbia\, Bosnia Norway and Azerbaijan serving 15 million customers in these 
 countries. He commissioned sequel of projects with him to analyse and solv
 e wind farm HVDC grid interaction problems (2013-2019).</p>\n<p style="tex
 t-align: center\;">Prof Pal was the chief technical consultant for a panel
  of experts appointed by the UNFCCC CDM (United Nations Framework Conventi
 on on Climate Change Clean Development Mechanism). He has offered training
 s in Chile\, Qatar\, UAE\, Malaysia and India in power system protections\
 , stability and control topics. He has developed and validated a prize win
 ning 68-bus power <a href="http://www.sel.eesc.usp.br/ieee/NETS68/New_Engl
 and_New_York_68_Bus_System_study_report.pdf"><span style="color: windowtex
 t\; text-decoration: none\; text-underline: none\;">system model</span></a
 >\, which now forms a part of IEEE Benchmark Systems as a standard for res
 earchers to validate their innovations in stability analysis and control d
 esign.<span style="mso-spacerun: yes\;">&nbsp\; </span>He was the Editor-i
 n-Chief of IEEE Transactions on Sustainable Energy (2012-2017) and Editor-
 in-Chief of IET Generation\, Transmission and Distribution (2005-2012). He
  is Vice President\, PES Publications (2019-2023).<span style="mso-spaceru
 n: yes\;">&nbsp\; </span>In 2016\, his research team won the President&rsq
 uo\;s outstanding research team award at Imperial College London (ICL). He
  is Fellow of IEEE for his contribution to power system stability and cont
 rol. He is Fellow of The Royal Academy of engineering\, UK for the impact 
 of his contribution to the field. <span style="mso-spacerun: yes\;">&nbsp\
 ;</span>He is an IEEE Distinguished Lecturer in Power distribution system 
 estimation and control. <span style="mso-spacerun: yes\;">&nbsp\;</span>He
  has published about 125 papers in IEEE Transactions and authored four boo
 ks in power system modelling\, dynamics\, estimations and control. He was 
 Otto Monsted Professor at Denmark Technical University (DTU) (2019) and Me
 rcator&nbsp\;Professor sponsored by German Research Foundation (DFG) at Un
 iversity of Duisburg-Essen in 2011.</p>
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