TID-based PSS2B to Overcome LFO Issue in Multi-machine Power Systems

Low frequency oscillations (LFOs) in interconnected multi-machine power systems is a major concern in viewpoint of power system dynamic stability. Proposing high performance power system stabilizers (PSSs) to mitigate efficiently the LFOs is an attractive subject which has found remarkable considera...

Full description

Saved in:
Bibliographic Details
Published inIranian Conference on Electrical Engineering pp. 968 - 973
Main Author Morsali, Javad
Format Conference Proceeding
LanguageEnglish
Published IEEE 17.05.2022
Subjects
Damping
dynamic stability
LFO
Power system dynamics
Power system stability
PSS2B
Robustness
Simulation
Stability analysis
TID
TID-PSS2B
Torque
Online AccessGet full text
ISSN2642-9527
DOI10.1109/ICEE55646.2022.9827003

Cover

Abstract Low frequency oscillations (LFOs) in interconnected multi-machine power systems is a major concern in viewpoint of power system dynamic stability. Proposing high performance power system stabilizers (PSSs) to mitigate efficiently the LFOs is an attractive subject which has found remarkable consideration in latter literature. Owing to high potential of fractional order controllers (FOCs), a tilt-integral-derivative (TID) assisted stabilizer is proposed here. In doing so, IEEE type PSS2B is modified to establish a TID-based PSS2B stabilizer. The dynamic performance of the suggested TID-PSS2B is investigated in comparison with an ingeter order proportional integral derivative (PID) based PSS2B counterpart and a former TID-PSS. The objective of this paper is to improve the small-signal stability of an interconnected power system via preparing further damping torque to suppress the LFOs. The design procedure of the TID-PSS2B is mathematically formulated as a minimization problem with the aim of decreasing the machines speed deviations. An improved particle swarm optimization (IPSO) algorithm is used to find optimal parameters of the presented stabilizer. The time domain simulation results reveal that by employing the suggested TID-PSS2B, the speed oscillations are suppressed effectively. Furthermore, to evaluate the robustness behavior of the presented controller, sensitivity analysis is carried out.
AbstractList Low frequency oscillations (LFOs) in interconnected multi-machine power systems is a major concern in viewpoint of power system dynamic stability. Proposing high performance power system stabilizers (PSSs) to mitigate efficiently the LFOs is an attractive subject which has found remarkable consideration in latter literature. Owing to high potential of fractional order controllers (FOCs), a tilt-integral-derivative (TID) assisted stabilizer is proposed here. In doing so, IEEE type PSS2B is modified to establish a TID-based PSS2B stabilizer. The dynamic performance of the suggested TID-PSS2B is investigated in comparison with an ingeter order proportional integral derivative (PID) based PSS2B counterpart and a former TID-PSS. The objective of this paper is to improve the small-signal stability of an interconnected power system via preparing further damping torque to suppress the LFOs. The design procedure of the TID-PSS2B is mathematically formulated as a minimization problem with the aim of decreasing the machines speed deviations. An improved particle swarm optimization (IPSO) algorithm is used to find optimal parameters of the presented stabilizer. The time domain simulation results reveal that by employing the suggested TID-PSS2B, the speed oscillations are suppressed effectively. Furthermore, to evaluate the robustness behavior of the presented controller, sensitivity analysis is carried out.
Author Morsali, Javad
Author_xml – sequence: 1
  givenname: Javad
  surname: Morsali
  fullname: Morsali, Javad
  email: j.morsali@uut.ac.ir
  organization: Urmia University of Technology,Engineering Faculty of Khoy,Khoy,Iran
BookMark eNotj8tKw0AUQEdRsNZ8gSDzA4l33jNLTVMNRFJI9iWPG4w0iWRSpX9fwa7O5nDg3JObcRqRkCcGEWPgntM4SZTSUkccOI-c5QZAXJHAGcu0VtKCNeyarLiWPHSKmzsSeP8Ffxaz1jq1Ipsy3YR15bGlu6Lgr3SZaP6DczMNSLNtTlPvj0j7kX4cD0sfDlXz2Y9Id9MvzrQ4-QUH_0Buu-rgMbhwTcptUsbvYZa_pfFLFvbSqlBIkBKhq1UnNBpdSwDWWKNFLdEAk8yaxlkGVSuxNRaV0K5WTaUZd4YpsSaP_9keEfffcz9U82l_2RZn5_xK3g
ContentType Conference Proceeding
DBID 6IE
6IL
CBEJK
RIE
RIL
DOI 10.1109/ICEE55646.2022.9827003
DatabaseName IEEE Electronic Library (IEL) Conference Proceedings
IEEE Xplore POP ALL
IEEE Xplore All Conference Proceedings
IEEE Electronic Library (IEL)
IEEE Proceedings Order Plans (POP All) 1998-Present
DatabaseTitleList
Database_xml – sequence: 1
  dbid: RIE
  name: IEEE Electronic Library (IEL)
  url: https://proxy.k.utb.cz/login?url=https://ieeexplore.ieee.org/
  sourceTypes: Publisher
DeliveryMethod fulltext_linktorsrc
Discipline Engineering
EISBN 9781665480871
1665480874
EISSN 2642-9527
EndPage 973
ExternalDocumentID 9827003
Genre orig-research
GroupedDBID 6IE
6IF
6IK
6IL
6IN
AAJGR
AAWTH
ABLEC
ADZIZ
ALMA_UNASSIGNED_HOLDINGS
BEFXN
BFFAM
BGNUA
BKEBE
BPEOZ
CBEJK
CHZPO
IEGSK
IPLJI
OCL
RIE
RIL
ID FETCH-LOGICAL-i485-34044e0fb5f36e76b4001c8763b4e7014187c9810ad4ed78e5369b5ca61297153
IEDL.DBID RIE
IngestDate Wed Aug 27 02:25:30 EDT 2025
IsPeerReviewed false
IsScholarly false
Language English
LinkModel DirectLink
MergedId FETCHMERGED-LOGICAL-i485-34044e0fb5f36e76b4001c8763b4e7014187c9810ad4ed78e5369b5ca61297153
PageCount 6
ParticipantIDs ieee_primary_9827003
PublicationCentury 2000
PublicationDate 2022-May-17
PublicationDateYYYYMMDD 2022-05-17
PublicationDate_xml – month: 05
  year: 2022
  text: 2022-May-17
  day: 17
PublicationDecade 2020
PublicationTitle Iranian Conference on Electrical Engineering
PublicationTitleAbbrev ICEE
PublicationYear 2022
Publisher IEEE
Publisher_xml – name: IEEE
SSID ssj0003188895
Score 1.796599
Snippet Low frequency oscillations (LFOs) in interconnected multi-machine power systems is a major concern in viewpoint of power system dynamic stability. Proposing...
SourceID ieee
SourceType Publisher
StartPage 968
SubjectTerms Damping
dynamic stability
LFO
Power system dynamics
Power system stability
PSS2B
Robustness
Simulation
Stability analysis
TID
TID-PSS2B
Torque
Title TID-based PSS2B to Overcome LFO Issue in Multi-machine Power Systems
URI https://ieeexplore.ieee.org/document/9827003
hasFullText 1
inHoldings 1
isFullTextHit
isPrint
link http://utb.summon.serialssolutions.com/2.0.0/link/0/eLvHCXMwjV1LT8JAEJ4AJ734AOM7e_Dolm33fZVHwIiQgAk30sc0IUYwplz89e6Wio948NY0abeZme7XznzfDMBNmEbKOCCkqOOYCmUYtag5deCmNMt9Ic3nO0aPavAk7udyXoPbnRYGEUvyGQb-sKzlZ-t041NlbWt8mZTXoe7CbKvV2uVTXGwaY2UlAg6ZbQ87vZ6USngiQhQF1cU_pqiUINI_gNHn8lvuyHOwKZIgff_VmfG_z3cIrS-5HpnsgOgIarg6hv1vnQab0J0Nu9QjVkYm02l0R4o1GbsodvGG5KE_JuUUPrJckVKRS19KjqW7rR-iRqq25i2Y9XuzzoBWAxToUhhJuWBCIMsTmXOFWiXufQ1T34IuEag9w9Po1JqQxZnATBuUXNlEprH76rHabYUn0FitV3gKJMXc_eeEEYudQVnsPM_jXOkkUyoXlvMzaHpzLF63LTIWlSXO_z59AXveJb4IH-pLaBRvG7xy2F4k16VTPwAHPp-a
linkProvider IEEE
linkToHtml http://utb.summon.serialssolutions.com/2.0.0/link/0/eLvHCXMwjV3JTsMwELVKOQAXlhax4wNHHJx4v9JFLXSTGqTeqiwTqUKkCKUXvh47DWURB26RpUTWzMQvmXlvBqEbPwmktkBIQEUR4VJTYkAxYsFNKpq5QprLdwxHsvfEH2ZiVkO3Gy0MAJTkM_DcZVnLT5fJyqXK7ox2ZVK2hbYt7nOxVmttMio2OrU2opIB-9Tc9VudjhCSOypCEHjV7T_mqJQw0t1Hw88NrNkjz96qiL3k_Vdvxv_u8AA1vwR7eLKBokNUg_wI7X3rNdhA7bDfJg6zUjyZToN7XCzx2MaxjTjAg-4Yl3P48CLHpSaXvJQsS_tYN0YNV43NmyjsdsJWj1QjFMiCa0EYp5wDzWKRMQlKxvaN9RPXhC7moBzHU6vEaJ9GKYdUaRBMmlgkkf3uMcoehseoni9zOEE4gcz-6fgBjaxBaWR9z6JMqjiVMuOGsVPUcOaYv66bZMwrS5z9vXyNdnrhcDAf9EeP52jXuceV5H11gerF2wouLdIX8VXp4A-XmKLn
openUrl ctx_ver=Z39.88-2004&ctx_enc=info%3Aofi%2Fenc%3AUTF-8&rfr_id=info%3Asid%2Fsummon.serialssolutions.com&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&rft.genre=proceeding&rft.title=Iranian+Conference+on+Electrical+Engineering&rft.atitle=TID-based+PSS2B+to+Overcome+LFO+Issue+in+Multi-machine+Power+Systems&rft.au=Morsali%2C+Javad&rft.date=2022-05-17&rft.pub=IEEE&rft.eissn=2642-9527&rft.spage=968&rft.epage=973&rft_id=info:doi/10.1109%2FICEE55646.2022.9827003&rft.externalDocID=9827003