ANALITICAL MODEL OF CURRENT LIMITER
Yusibova Tarana Firgat, Orucova Aygun Aydın, Aghayeva Rayiha Shamsaddin
2024   04   en   p.23-29

ABSTRACT

Discussing the state and types of current limitation in medium and high voltage ranges show the limits and drawbacks of today's current limiting techniques. Focusing on up-to-date research projects in the field, the major part of this paper explains various kinds of current limitation by means of super conducting materials. The two major principles, resistive and inductive limiters, are introduced as well as hybrid approaches. Unsolved problems using high temperature superconductors HTSC for current limiting devices are discussed

Keywords: current limitation, super-conductive materials, hybrid approaches, voltage, resistive limiters, inductive limiters.
DOI:10.70784/azip.1.2024423

Received: 30.10.2024
Internet publishing: 04.12.2024

AUTHORS & AFFILIATIONS

Mingachevir State University, 21 D. Aliyeva street, Mingachevir, AZ 4500 Azerbaijan
E-mail: tarana.yusubova@mail.ru, aygun.orucova1987@gmail.com, raya.aaaaaa.00@mail.ru

Graphics and Images

         

  Fig.1-2-3-4       Fig.5-6-7-8

 REFERENCIES

[1]   R.F. Giese. Fault Current Limiters - A Second Look Argonne National Laboratory March 1995.
[2]   Michael Steurer, Klaus Fröhlich. Current Limiters - State of the art, Fourth Workshop & Conference on EHV Technology, CSIC Auditorium, Indian Institute of Science, Bangalore 560 012 India. July 15 & 16 199.
[3]   V.H. Tahiliani, J.W. Porter. Fault Current Limiters, An Overview of EPRI Research IEEE Trans. Power Apparatus and Systems, Vol. P - 99, № 5, Sept / Oct 1980, pp. 1964 – 1969.
[4]   P.G. Slade, J.L. Wu, E.J. Stacey, W.F. Stubler, R.E. Voshal, J.J. Bonk, J. Porter, L. Hong. The Utilities Requirements for a Distribution Fault Current Limitier IEEE Transactions on Power Delivery, Vol. 7, № 2, April 1992, p. 507-515.
[5]   M. Noe, G. Harms, B.R. Oswald. Supraleitende Strombegrenzer in der Energietechnik ELEKTRIE, Berlin 51 (1997) 11/12 pp. 414-424.
[6]   S. Sugimoto, S. Neo, H. Arita, J. Kida, Y. Matsui, T. Yamagiwa. Thyristor controlled ground fault current limiting system for ungrounded power distribution systems IEEE Trans. on PD, Vol. 11, № 2, April 1996, pp. 940-945.
[7]   Engelman, Neil, Schreurs, Emile, Drugge. Field test results for a multi-shot 12.47 kV fault current limiter IEEE Transactions on Power Delivery v 6 n 3 Jul 1991 p 1081-1087.
[8]   E. Dreimann, V. Grafe, K.H. Hartung. Schutzeinrichtung zur Begrenzung von Kurzschlußströmen ETZ, Vol. 115, Iss. 9, May 1994, p. 492-494
[9]   B. Gromoll, G. Ries, W. Schmidt, H.P. Krämer, P. Kummeth, H.-W. Neumüller, S. Fischer. Resistive Current Limiters with YBCO Films IEEE Trans. on appl. Superconductivity, Vol. 7, № 2, June 1997, pp. 828-831.
[10]  T. Verhaege, et.al. Investigations of HV and EHV superconducting fault current limiter IEEE Trans. on appl. Superconductivity, Vol. 7, № 2, June 1997, pp. 1063-1066.
[11]  T. Hara, T. Okuma, T. Yamamoto, D. Ito, K. Tasaki, K. Tsurunaga. Development of a new 6.6 kV / 1500 A class SCFCL for electric power systems IEEE-Transactions-on-Power-Delivery. vol.8, № 1; Jan. 1993; p.182-92.
[12]  W. Paul, M. Lakner, J. Ryhner, P. Unternährer, Th. Baumann, M. Chen, L. Wiedenhaorn, A. Guérig. Test of a 1.2 MVA high-Tc superconducting fault current limiter Supercond. Sci. Technol. 10 (1997) pp. 914-918
[13]  R.F. Giese. Directory of Superconducting Devic Projects Bearing upon the Electric Power Sector Argonne National Laboratory, November 1997
[14]  J.X. Jin, S.X. Dou, H.K. Liu, C. Grantham. Preperation of High Tc Superconducting Coils for consideration of their use in a prototype fault current limiter IEEE Trans. on appl. Superconductivity, Vol. 7, № 2, June 1997, pp. 1051-1054