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HAT SONUNDA SVC BULUNAN GÜÇ SİSTEMİNDE ÇATALLAŞMA ANALİZİ İLE DİNAMİK GERİLİM KARARLILIĞININ İNCELENMESİ

INSPECTİON OF DYNAMİC VOLTAGE STABİLİTY OF POWER SYSTEMS USİNG SVC AT LİNE ENDS VİA BİFURCATİON ANALYSİS

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Abstract (2. Language): 
Bifurcation analysis is often used in power system voltage stability studies. Loadability limits of system are determined by determination of bifurcation point and then it is used in planning and control studies. In this study, dynamic voltage stability analysis of a power system that deviates from a stable equilibrium point has been realized by bifurcation analysis.
Abstract (Original Language): 
Güç sistemleri gerilim kararlılığı çalışmalarında çatallaşma analizi oldukça yaygın olarak kullanılmaktadır. Çatallaşma noktasının belirlenmesi ile sistemin yüklenebilirlik sınırları tespit edilerek, planlama ve kontrol çalışmalarında kullanılmaktadır. Bu çalışmada kararlı bir denge noktasından uzaklaşan bir güç sisteminin çatallaşma analizi ile dinamik gerilim kararlılığı analizi gerçekleştirilmiştir.
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REFERENCES

References: 

1.
Reactive Power Reserve Work Group. Final Report, voltage stability criteria, undervoltage load shedding strategy, and reactive power reserve monitoring methodology, 1999, p.154.
2.
Y. Uyaroğlu, M.A. Yalçın, “Elektrik Güç sistemlerinde Salınım Dinamiklerinin Kaotik Olaylarının incelenmesi”, Elektrik – Elektronik – Bilgisayar Mühendisliği sempozyumu, Sayfa 60-64, Bursa 2002
3.
S. Ayasun, “Tekil Noktaların Güç sistemlerin Dinamiğine olan Etkileri”, Elektrik-Elektronik–Bilgisayar Mühendisliği 10. Ulusal Kongresi, Sayfa 28-31,
4.
H.D. Chiang, C.W. Liu, P.P. Varaiya, F.F. Wu, M.G. Lauby, “Chaos in a Simple Power System”, IEEE Transaction on Power Systems, Vol. 8, No. 4, pp. 1407-1417, November 1993
5.
I. Dobson, H.Gşavitsch, C.C. Liu, Y. Tamura, K. Vu, “Voltage Collapse in Power Systems” IEEE Circuits and Devices Magazine, Vol. 8, No. 3, pp. 40-45, May 1992
6.
S.H. Strogatz, “Nonlineer Dynamics and Chaos”, Westwiew press,2000
7.
A.C.Z. de Souza, “New Techniques to Efficiently Determine Proximity to Static Voltage Collapse”, Doctor thesis, Univercity of Waterloo, Ontario, 1996
8.
Z.T. Faur, “Effects of FACTS devices on Static Voltage Collapse Phenomena”, Master’s thesis, University of Waterloo, Ontario, 1996
9.
V. Ajjarapu, B. Lee, “Bifurcations theory and its application to nonlinear dynamical phenomena in an electrical power system”, IEEE Trans. on Power Systems,Vol.17, No.1, pp.424-431, 1992
10.
I. Dobson, H.D. Chiang, “Towards a theory of voltage collapse in electric power systems”, Syst. Control Lett, Vol.13, pp.253-262, 1989
11.
“Voltage stability assesment: Concepts, practices and tools”, IEEE/PES Power System Stability Subcommittee Special Publicatio, Product No. SP101PSS, Final document, August 2002
12.
IEEE Special Stability Controls Working Grouph, “Static Var compensator models for power flow and dynamic performance simulation”, IEEE Trans. on Power Systems, Vol.9, No.1, pp.229-239, February, 1994
13.
H.G. Kwatny, A.K. Pasrija, L.Y. Bahar, “Static bifurcation in electric power Networks:loss of steady-state stability and voltage collapse”, IEEE Trans. Circuit Systems, Vol.33, pp.981-991, February, 1986

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