ŞÜKRÜ YILDIZ
(Ahi Evran Üniversitesi, Mimarlık-Mühendislik Fakültesi, Metalürji ve Malzeme Mühendisliği Bölümü, Kırşehir, Türkiye)
FEDAİ İNANIR
(Yıldız Teknik Üniversitesi, Fen Edebiyat Fakültesi, Fizik Bölümü, İstanbul, Türkiye)
Ahmet ÇİÇEK
(Mehmet Akif Ersoy Üniversitesi, Fen Edebiyat Fakültesi, Nanobilim ve Nanoteknoloji Bölümü, Burdur, Türkiye)
Fedor GÖMÖRY
(Institute of Electrical Engineering, Slovak Academy of Sciences, Bratislava, Slovakia)
Yıl: 2017Cilt: 25Sayı: 5ISSN: 1300-0632 / 1300-0632Sayfa Aralığı: 3528 - 3539İngilizce

84 2
Numerical study of AC loss of two-layer HTS power transmission cables composed of coated conductors with a ferromagnetic substrate
Fen > Mühendislik > Mühendislik, Elektrik ve Elektronik
DergiAraştırma MakalesiErişime Açık
  • [1] Masuda T, Yumura H, Ohya M, Honjo S, Mimura T, Kito Y. Design study of a HTS cable in Yokohama project. Phys C Supercond 2009; 469: 1702-1706.
  • [2] Demko J, Sauers I, James D, Gouge M, Lindsay D, Roden M, Tolbert J, Willen D, Trholt C, Nielsen CT. Triaxial HTS cable for the AEP Bixby project. IEEE T Appl Supercon 2007; 17: 2047-2050.
  • [3] Yumura H, Ashibe Y, Itoh H, Ohya M, Watanabe M, Masuda T, Weber C. Phase II of the Albany HTS Cable Project IEEE T Appl Supercon 2009; 19: 1698-1701.
  • [4] Sohn S, Lim J, Yim S, Hyun OB, Kim HR, Yatsuka K, Isojima S, Masuda T, Watanabe M, Ryoo H et al. The results of installation and preliminary test of 22.9 kV, 50 MVA, 100 m class HTS power cable system at KEPCO. IEEE T Appl Supercon 2007; 17: 2043-2046.
  • [5] Paranthaman MP, Izumi T. High-performance YBCO-Coated superconductor wires. MRS Bulletin 2004; 29: 533- 589.
  • [6] Terzieva S, Vojenciak M, Pardo E, Grilli F, Drechsler A, Kling A, Kudymow A, Gomory F, Goldacker W. Transport and magnetization AC losses of ROEBEL assembled coated conductor cables: measurements and calculations. Supercond Sci Technol 2010; 23: 014023.
  • [7] Siahrang M, Sirois F, Grilli F, Babic S, Brault S. A new numerical approach to nd current distribution and AC losses in coaxial assembly of twisted HTS tapes in single layer arrangement. J Phys Conf Ser 2010; 234: 022034.
  • [8] Zhang M, Coombs TA. 3D modeling of high- T c superconductors by nite element software. Supercond Sci Technol 2012; 25: 015009.
  • [9] Siahrang M, Sirois F, Nguyen DN, Ashworth SP. Assessment of alternative design schemes to reduce the edge losses in HTS power transmission cables made of coated conductors. Supercond Sci Technol 2012; 25: 014001.
  • [10] Takeuchi K, Amemiya N, Nakamura T, Maruyama O, Ohkuma T. Model for electromagnetic eld analysis of superconducting power transmission cable comprising spiraled coated conductors. Supercond Sci Technol 2011; 24: 085014.
  • [11] Hamajima T, Tsuda M, Yagai T, Ozcivan AN, Shimoyama K, Aoyagi K, Soeda S. AC losses of a tri-axial superconducting cable with balanced three-phase current distributions. J Phys Conf Ser 2008; 97: 012253.
  • [12] Souc J, Gomory F, Vojenciak M, Frolek L, Isfort D, Ehrenberg J, Bock J, Usoskin A, Rutt A. AC losses of a tri-axial superconducting cable with balanced three-phase current distributions. J Phys Conf Ser 2008; 97: 012198.
  • [13] Mawatari Y, Malozemoff AP, Izumi T, Tanabe K, Fujiwara N, Shiohara Y. Hysteretic ac losses in power transmission cables with superconducting tapes: effect of tape shape. Supercond Sci Technol 2010; 23: 025031.
  • [14] Malozemoff A, Snitchler G, Mawatari Y. Tape-width dependence of AC losses in HTS cables. IEEE T Appl Supercon 2009; 19: 3115-3118.
  • [15] Klincok B, Gomory F. In uence of gaps in monolayer superconducting cable on AC losses. J Phys Conf Ser 2006; 43: 897.
  • [16] Li Q, Amemiya N, Takeuchi K, Nakamura T, Fujiwara N. AC loss characteristics of superconducting power transmission cables: gap effect and J c distribution effect. Supercond Sci Technol 2010; 23: 115003.
  • [17] Souc J, Vojenciak M, Gomory F. Experimentally determined transport and magnetization ac losses of small cable models constructed from YBCO coated conductors. Supercond Sci Technol 2010; 23: 045029.
  • [18] Vojenciak M, Souc J, Gomory F. Critical current and AC loss analysis of a superconducting power transmission cable with ferromagnetic diverters. Supercond Sci Technol 2011; 24: 075001.
  • [19] Ainslie MD, Flack TJ, Campbell AM. Calculating transport AC losses in stacks of high temperature superconductor coated conductors with magnetic substrates using FEM. Phys C Supercond 2012; 472: 50-56.
  • [20] Mawatari Y. Magnetic eld distributions around superconducting strips on ferromagnetic substrates. Phys Rev B 2008; 77: 104505.
  • [21] Zhang M, Kvitkovic J, Kim JH, Kim CH, Pamidi SV, Coombs TA. Alternating current loss of second-generation high-temperature superconducting coils with magnetic and non-magnetic substrate. Appl Phys Lett 2012; 101: 102602.
  • [22] Nguyen DN, Ashworth SP, Willis JO, Sirois F, Grilli F. A new nite-element method simulation model for computing AC loss in roll assisted biaxially textured substrate YBCO tapes. Supercond Sci Technol 2010; 23: 025001
  • [23] Umabuchi M, Miyagi D, Takahashi N, Tsukamoto O. Analysis of AC loss properties of HTS coated-conductor with magnetic substrate under external magnetic eld using FEM. Phys C Supercond 2008; 468: 1739-1742.
  • [24] Amemiya N, Nakahata M, Fujiwara N, Shiohara Y. AC losses in two-layer superconducting power transmission cables consisting of coated conductors with a magnetic substrate. Supercond Sci Technol 2010; 23: 014022.
  • [25] Clem JR, Malozemoff AP. Theory of AC loss in power transmission cables with second generation high temperature superconductor wires. Supercond Sci Technol 2010; 23: 034014.
  • [26] Vysotsky VS, Shutov KA, Nosov AA, Polyakova NV, Fetisov SS, Zubko VV, Sytnikov VE, Carter WL, Fleshler S, Malozemoff AP et al. AC loss of a model 5m 2G HTS power cable using wires with NiW substrates. J Phys Conf Ser 2010; 234: 032061.
  • [27] Fetisov SS, Zubko VV, Nosov AA, VPolyakova N, Vysotsky VS. Losses in power cables made of 2G HTS wires with different substrates. Phys Procedia 2012; 36: 1319-1323.
  • [28] Ohya M, Yumura H, Masuda T, Nagaishi T, Shingai Y, Fujiwara N. AC loss characteristics of RE-123 supercon- ducting cable. J Phys Conf Ser 2010; 234: 032044.
  • [29] Coombs TA, Campbell AM, Murphy A, Emmens M. A fast algorithm for calculating the critical state in supercon- ductors. Int J Comput Math Electr Electron Eng. 2001; 20: 240-252.
  • [30] Amemiya N, Miyamoto K, Banno N, Tsukamoto O. Numerical analysis of AC losses in high Tc superconductors based on E-j characteristics represented with n-value. IEEE T Appl Supercon 1997; 7: 2110-2113.
  • [31] Gomory F, Vojenciak M, Pardo E, Souc J. Magnetic ux penetration and AC loss in a composite superconducting wire with ferromagnetic parts. Supercond Sci Technol 2009; 22: 034017.
  • [32] Gomory F, Inanir F. AC losses in coil wound from round wire coated by a superconducting layer. IEEE T Appl Supercon 2012; 22: 4704704.
  • [33] Campbell AM. A new method of determining the critical state in superconductors. Supercond Sci Technol 2007; 20: 292-295.
  • [34] Henning A, Lindmayer M, Kurrat M. Simulation Setup for Modeling the Thermal, Electric, and Magnetic Behavior of High Temperature Superconductors. Phys Procedia 2012; 36: 1195-1205.

TÜBİTAK ULAKBİM Ulusal Akademik Ağ ve Bilgi Merkezi Cahit Arf Bilgi Merkezi © 2019 Tüm Hakları Saklıdır.