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Static Bifurcation Point and Maximum Loadability in a shunt compensated Multibus Power System

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PL
Statyczne rozwidlenie i maksimum obciążalności w wieloszynowym systemie z bocznikową kompensacją
Języki publikacji
EN
Abstrakty
EN
In heavily loaded systems, voltage stability limit is usually dominant and voltage instability is usually observed following large disturbance. This is typically the case in the deregulated environment as the transmission systems are operating under more stressed condition due to increased transaction level associated with open access. In this paper simple voltage stability analysis is carried out for a multibus power system (26 Bus System).The effect of shunt compensation on critical eigen value of Jacobian matrix, system loadabilty and static voltage stability is established.
PL
W systemie przeciążonym jednym z najważniejszych parametrów jest stabilność napięcia. W artykule przeprowadzono analizę stabilności napięcia w wieloszynowym systemie (26 szyn).
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Strony
38--41
Opis fizyczny
Bibliogr. 13 poz., rys., schem.
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autor
autor
autor
Bibliografia
  • [1] Ajjarapu V, Christy C. “The continuation power flow: A tool to study steady state voltage stability” IEEE Trans. On power systems,Vol.7,No.1,pp.416-423 Feb.1992
  • [2] G.Hamoud,"Assesment of ATC of transmission system” IEEE Trans. Power Systems, vol. 15, No.1 pp. 27-32, Feb. 2000.
  • [3] Therry Van Cutsem "Voltage instability: Phenomena, Countermeasures and Analysis methods," Proceedings of IEEE, Vol.88, No.2, pp.208-227, Feb.2000.
  • [4] Prabha Kundur “Power system stability and control” TATA McGraw-Hill Edition, Power System Engineering Series
  • [5] Chowdhury B.H., Taylor C.W. “Voltage stability analysis: VQ power flow simulation versus dynamic simulation” IEEE Trans. On power systems, Vol.15, No.4, pp.1354-1359, Nov.2000.
  • [6] Taylor C.W. "Power System Voltage Stability” McGraw-HILL International Editions, Electrical Engineering series J. Jones. (1991, May 10). Networks. (2nd ed.) [Online]. Available: http://www.atm.com
  • [7] Greene S.,Dobson I., Alvarado F.L. “Contingency ranking for voltage collapse via sensitivities from a single nose curve”,IEEE Trans on Power Systems,Vol.14,No.1,Feb.1999,pp.2232-40
  • [8] Taylor,C.,”Indices predicting voltage collapse including dynamic phenomena”,CIGRE Task Force 38.02.11,1994
  • [9] Canizares C.A.”Voltage stability assessment: Concepts Practices and Tools,IEEE PES Power System Stability Subcommittee Special Publication, SP101PSS,2003
  • [10] V.Ajjarapu “Computational techniques for voltage stability assessment and control “Springer International Edition, Power Electronics and Power System Series.
  • [11] Cladio A.Canizares., “On bifurcations, voltage collapse and load modeling”, IEEE trans. on power systems,Vol.10,No.1,Feb.1995,pp.512-522
  • [12] N.Mithulananthan,S.C.Srivastava., “Investigation of a voltage collapse incident in Sri Lanka’s power system network” Proc.of EMTD’98,Singapore,IEEE catalogue No.98EX137,March 3,1998,pp.47-52
  • [13] C.Alsberg.”WSCC issues preliminary report on August power outage: press release”. Technical report, WSCC, available on www.wscc.com,Sept.1996
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPOK-0038-0008
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