Buradasınız

Anasayfa » Content

STUDY OF THE IMPACTS OF UPFC UPON DYNAMIC POWER QUALITY

Journal Name:

  • Istanbul University Journal of Electrical & Electronics Engineering

Publication Year:

  • 2005

Key Words:

Author NameUniversity of Author
Abstract (2. Language): 
This paper designs the UPFC dynamic model after a briefly review to UPFC operating principles. Firstly, three-phase bridge full-controlled circuit is used to compose the converters, in which IGBT are employed as the switch components. Gate firing signals of IGBT are obtained using SPWM method. Secondly, whole UPFC model, together with a simple PI control rules, are accomplished after analyzing the transmission active and reactive power characteristics. Finally, the capabilities of the UPFC on enhancing transient stability, maintaining bus voltage and damping system oscillation are examed by simulation. Result graphics illustrate the unique capability of the UPFC to control the real and reactive power on a transmission line, while also regulating the local bus voltage simultaneously or independently.
Bookmark/Search this post with
FULL TEXT (PDF): 
PDF icon arastirmax-study-impacts-upfc-upon-dynamic-power-quality.pdf
  • 1
1315-1321
  • English

REFERENCES

References: 

[1] C. D. Schauder, D.M. Hamai, A. Edris,
“Operation of the Unified Power Flow Controller
(UPFC) under Practical Constraints”. IEEE
Transactions on Power Delivery, Vol. 13, No. 2,
P630-639, April 1998.
[2] Manzar Rahman, Mohammed Ahmed,
Richard Gutman, “UPFC Application on the
AEP System: Planning Considerrations”. IEEE
Transactions on Power Systems, Vol. 12, No. 4,
P1695-1701. November 1997.
[3] C. Schauder, L. Gyugyi, E. Stacey, M.Lund,
“AEP UPFC project: installation, commissioning
and operation of the ±160MVA statcom (phase
I)”. IEEE Transactions on Power Delivery, Vol.
13, No. 4, P1530-1535. October 1998.
[4] B. A. Renz, A. Keri, A. S. Mehraban, C.
Schauder, “AEP unified power flow controller
performance”. IEEE Transaction on Power
Delivery, Vol. 14, No. 4, P1374-1381. October
1999.
[5] Jun-Yong Liu, Yong-Hua Song, P. A. Mehta,
“Strategies for Handling UPFC Constraints in
Steady-State Power Flow and Voltage Control”.
Ieee Transactions On Power Systems, VOL.15,
NO. 2, P566-571. MAY 2000.
[6] N. Dizdarevic, S. Tesnjak, G. Andersson,
“Converter Rating Powers of Unified Power
Flow Controller”. IEEE proceedings, P603-609.
2002.
[7] Y. Ye, M. Kazerani, “Operating Constraints
of FACTS Devices”. IEEE proceedings, P1579-
1582. 2000.
[8] Kalyan K. Sen, Albert J. F. Keri,
“Comparision of Field Results and Digital
Simulation Results of Voltage-Sourced
Converter-Based FACTS Controllers”. Ieee
Transaction On Power Delivery, VOL. 18, NO.
1, P300-306. JANUARY 2003.
[9] L. Gyugyi, C. D. Schstruder, A. Edris, “THE
UNIFIED POWER FLOW CONTROLLER: A
NEW APPROACH TO POWER
TRANSMISSION CONTROL”. IEEE
Transactions on Power Delivery, Vol. 10, No. 2,
P1085-1097. April 1995.
Study Of The Impacts Of UPFC Upon Dynamic Power Quality
Aihong TANG, Shijie CHENG
1321
[10] D. Povh, M. Weinhold, “Basic Control of
Unified Power Flow Controller”, IEEE
Transactions on Power Systems. Vol. 12, No. 4,
P1734-1739. November 1997.
[11] S. Y. Ge, T S Chung, “Optimal Active
Power Flow Incorprating Power Flow Control
Needs in Flexible AC Transmission Systems”.
IEEE Transactions on Power Systems, Vol. 14,
No.2, P738-744. May 1999.
[12] Edvina Uzunovic, “EMTP, Transient
Stability and Power Flow Models and Controls
of VSC Based FACTS Controllers”. Waterloo,
Ontario, Canada, P135-140. 2001.

Thank you for copying data from http://www.arastirmax.com