Centralized Control Algorithm for Power System Performance using FACTS Devices in the Korean Power System |
Kang, Sang-Gyun
(Dept. of Electrical and Electronic Engineering, Korea University)
Seo, Sang-Soo (Dept. of Electrical and Electronic Engineering, Korea University) Lee, Byong-Jun (Dept. of Electrical and Electronic Engineering, Korea University) Chang, Byung-Hoon (KEPRI (Korea Electric Power Research Institute)) Myung, Ro-Hae (Dept. of Industrial Management Engineering, Korea University) |
1 | V. Ajjarapu, Computational Techniques for Voltage Stability Assessment and Control, New York: Springer, 2006. |
2 | M. Ilic, A. Stankovic, Voltage problems on transmission networks subject to unusual power flow patterns, IEEE Trans. Power Syst., Vol. 6, No.1, pp.339-328, Feb. 1991. DOI ScienceOn |
3 | P. A. Lof, G. Anderson, D. J. Hill, Voltage stability indices for stressed power systems IEEE PES winter meeting New York, 1992. |
4 | Y. C. Wu, A. S. Debs, R. E. Marsten, “A direct Nonlinear Predictor-Corrector Primal-Dual Interior Point Algorithm for Optimal Power flow”, IEEE Trans. On power systems, Vol. 9, May, 1994. |
5 | H. Wei, H. Sasaki, J. Kubokawa, R. Yokoyama, “An Interior Point Nonlinear Programming for Optimal Power Flow Problems with A Novel Data Structure”, IEEE Trans. on Power System, Vol.13, No.3, August 1998. |
6 | Geraldo Leite Torres, “Interior-point method for nonlinear optimal power flow using voltage rectangular coordinates”, IEEE Trans. on Power Systems, Vol.13, No.4, Nov, 1998 |
7 | L. Gyugyi, E. R. Taylor, “Characteristics of Static Thyristor Controlled Shunt Compensators for Power Transmission System Applications”, IEEE Trans, PAS, Vol. PAS-99, No. 5, Sep, 1980. |
8 | Anders Pouyan Pourbeik, Bhaskar Ray Bostrom, “Modeling and Application Studies for a Modern Static Var System Installation,”IEEE Transactions on Power Delivery, Vol. 21, No. 1, Jan. 2006. |
9 | John J. Paserba, “How FACTS Controllers Benefit AC Transmission Systems”, Power Engineering Society General Meeting, 2004, IEEE, pp.1257-1262, 6-10, June, 2004. |
10 | B. Lee, H. Song, S. H. Kwon, G. Jang, J. H. Kim, V. Ajjarapu, “A study on determination of interface flow limits in the KEPCO system using modified continuation power flow (MCPF), IEEE Trans. Power Systems, Vol. 17, No. 3, Aug. 2002, pp. 557-564. DOI ScienceOn |
11 | “FACTS Technology Workshop-Domestic application of FACTS and related issues”, KERI, Hyosung Co., 2003. |
12 | “Development of Large Capacity Electricity Transport Technology-Stage 1: FACTS operation and local development of related equipment technology”, KERI, Hyosung Co., 2005. |
13 | B. Chang, S. Kim, J. Han, D. Choi, H. Song, B. Lee, “Research on location selection of 100MVA STATCOM for improvement of metropolitan voltage stability,” KIEE Research Publications, Vol. 56, No. 9, pp. 1543-1548. |
14 | G. Heydt, C. C. Liu, “Transmission Networks with Multiple FACTS controllers: Control Conceptualization: control strategy and Design for FACTS”, EPRI, Palo Alto, CA: 2001. |
15 | Z. Feng, V. Ajjarapu, and D. J. Maratukulam, “A practical minimum load shedding strategy to mitigate voltage collapse”, IEEE Trans. on power systems, Nov, 1998. |
16 | Alexander J. Flueck, Jayabharath R. Dondeti, “A new continuation power flow tool for investigating the nonlinear effects of transmission branch parameter variations”, IEEE trans. Vol. 15, No. 1, Feb, 2000 |
17 | H. Kitamura M. Shimomura, J. Paserba, “Improvement of voltage stability by the advanced high side voltage control regulator”, Power Engineering Society Summer Meeting, 2000, IEEE, Vol. 1, July, 2000. |
18 | A. Murdoch, J. J. Sanchez-Gasca, M. J. D'Antonio, R. A Lawson, “Excitation control for high side voltage regulation”, Power Engineering Society Summer Meeting, 2000, IEEE, Vol. 1, July, 2000. |
19 | S. Corsi, M. Piozzi, M. Sforza, G. Dell’olio., “The coordinated automatic voltage control for the Italian transmission Grid-Part I: reasons of the choice and overview of the consolidated hierarchical system”, Power systems, IEEE Transactions on, Vol. 19, Nov, 2004. |
20 | H. Lefebvre, D. Frangnier, P. Mallet, M. Bulot, “Secondary coordinated voltage control system: feedback of EDF”, Power Engineering Society Summer Meeting, 2000, IEEE, Vol. 1, July, 2000. |
21 | S. Corsi, M. Piozzi, M. Sforza, G. Dell’olio. “The coordinated automatic voltage control for the Italian transmission Grid-Part II: control apparatuses and field performance of the consolidated hierarchical system”, Power systems, IEEE Transactions on, Vol. 19, Nov, 2004. |
22 | S. Corsi, “The Secondary Voltage Regulation in Italy”, IEEE/PES 2000 Summer Meeting, Seattle, USA, July 16-20 2000. |
23 | Y. Chen, “Development of Automatic Slow Voltage Control for Large Power System”, Ph.D. thesis, Washington State University, 2001. |
24 | J. Su, V. M. Venkatasubramanian, “A Hybrid On-line Slow Voltage Control Scheme for Large Power Systems”, Bulk Power System Dynamics and Control-VII, Charleston, USA, August 19-24, 2007. |
25 | Narain G. Hingorani, Laszlo Gyugyi, Understanding FACTS, IEEE Press. |
26 | Laszlo Gyugyi, “Power Electronics in Electric Utilities: Static Var Compensators”, Proceedings of the IEEE, Vol. 76, No. 4, April 1988. |
27 | X. Wang, G. C. Ejebe, J. Tong, J. G. Waight, “Preventive/Corrective Control for voltage stability using direct interior point method”, IEEE Transactions on power systems, Vol. 13, Aug, 1998. DOI ScienceOn |
28 | V. Ajjarapu, C. Christy, “The continuation power flow: a tool for steady state voltage stability analysis”, IEEE Trans. On Power Systems, Vol. PWRS-7, Feb, 1992. |
29 | T. J. Overbye, “Computation of a practical method to restore power flow solvability”, IEEE Trans. On power systems, Vol. PWRS-10, Feb, 1995. |
30 | T. J. Overbye, “A power flow measure for unsolvable cases”, IEEE Trans on power systems, Vol. 9, Aug, 1994. |
31 | I. Dobson, L. Lu, “Computing an optimum direction in control space to avoid saddle node bifurcation and voltage collapse in electric power systems”, IEEE Trans. On automatic control. Vol. 37, Oct, 1992. |
32 | T. V. Cutsem, “An approach to corrective control of voltage instability using simulation and sensitivity”, IEEE Trans. On Power Systems, Vol. 10, May, 1995. |
33 | J. Zhao, H. D. Chiang, H. Li. “A new contingency parameterization CPF model and sensitivity method for voltage stability control”, IEEE PES General meeting 2005, July, San Francisco, USA. |
34 | Q. Wu, D. H. Popovic, D. J. Hill, “Voltage security enhancement via coordinated control”, IEEE Trans. On power systems, Vol. 16, Feb, 2001. |
35 | Y. Guo, D. J. Hill, Y. Wang, “Global transient stability and voltage regulation for power systems”, Power systems, IEEE Transactions on, Vol. 16, Nov, 2001. |
36 | C. W. Taylor, “Line drop compensation, high side voltage control, secondary voltage control-why not control a generator like a static Var compensator?”, Power Engineering Society Summer Meeting, 2000, IEEE, Vol. 1, July, 2000. |
37 | J. B. Davies, L. E. Midford, “High side voltage control at Manitoba Hydro”, Power Engineering Society Summer Meeting, 2000, IEEE, Vol. 1, July, 2000. |
38 | T. Van Cutsem and C. Vourans, Voltage Stability of Electric Power Systems. Norwell, MA: Kluwer, 1998. |
39 | C. W. Talor, Power Systems voltage stability. McGraw-Hill, 1994. |
40 | P. Kundur, Power systems stability and control. McGraw-Hill, 1994. |
41 | Z. Feng, V. Ajjarapu, D. J. Maratukulam, “A comprehensive approach for preventive and corrective control to mitigate voltage collapse”, IEEE Transaction on power systems, Vol. 15, May, 2002. DOI ScienceOn |
42 | J. Zhao, H. D. Chiang, H. Li, B. Zhang, “A novel preventive control approach for mitigating voltage collapse”, Power Engineering Society General Meeting, 2006, IEEE. DOI |
43 | F. Capitanescu, T. V. Cutsem, “Preventive control of voltage security margins: A multicontingency sensitivity-base approach”, IEEE Transactions on power systems, Vol. 17, May, 2002. DOI ScienceOn |