Детайли за публикацията
(Publication details)

Autors: Mateev, V. M., Ivanov, G. I., Marinova, I. Y.
Title: Inductance Analysis of Multilayer HTS Power Cable
Keywords: 2-D finite element method, Electrical machine, Equivalent circuit model, High temperature superconducting, HTS, 2GLayered Structures, Power cables, Superconducting power cables

Abstract: Second generation superconducting power cables are well suited for the increasing demand of higher power densities of electrical machines and apparatuses. In this paper a method for estimation of geometric self and mutual inductances between layers of two compositions high-Temperature superconducting (HTS) power cables is presented. Two different architectures are Investigated under AC conditions. Equivalent circuit model in order to study the layered structure of the HTS cable is introduced. 2D finite element method models are analyzed by ANSYS-Maxwell solver. The mutual and self inductances are obtained and discussed

References

  1. Fetisov, S.S., Zubko, V.V., Zanegin, S.Y., Nosov, A.A., Vysotsky, V.S., 2018, Numerical Simulation and Cold Test of a Compact 2G HTS Power Cable, IEEE Transactions on Applied Superconductivity, Volume 28(4), pp. art. no. 5400905
  2. Alvarez, Á., Suárez, P., Pérez, B., García, L., 2018, Coated Superconducting Tape Model Based on the Distribution of Currents between the Tape Layers: Computing Implementation, IEEE Transactions on Applied Superconductivity, Volume 28(4), pp. art. no. 8267204
  3. Oki, S., Miura, S., Iwakuma, M., 2018, Theoretical Analysis of Additional AC Loss Properties of Two-Strand Transposed Parallel Conductors Composed of REBCO Superconducting Tapes, IEEE Transactions on Applied Superconductivity, Volume 28(3), pp. art. no. 8263126
  4. Duan, N., Xu, W., Wang, S., Zhu, J., 2018, Current Distribution Calculation of Superconducting Layer in HTS Cable Considering Magnetic Hysteresis by Using XFEM, IEEE Transactions on Magnetics, Volume 54(3), pp. art. no. 8000804
  5. Piatek, Z., Baron, B., Szczegielniak, T., Kusiak, D., Pasierbek, A., 2013, Exact closed form formula for mutual inductance of conductors of rectangular cross section, Przeglad Elektrotechniczny, Volume 89(3 A), pp. pp. 61-64
  6. Brooke, R., Hoer, C., Love, C., 1967, Inductance and characteristic impedance of strip-Transmission line, Journal of Research of the National Bureau of Standarts-C. Enngineering and Instrumentation, Volume 71(1), pp. January-March
  7. Nguyen, T.-T., Lee, W.-G., Lee, S.-J., Park, M., Kim, H.-M., Won, D., Yoo, J., (...), Yang, H.S., 2019, A simplified model of coaxial, multilayer high-temperature superconducting power cables with Cu formers for transient studies (Open Access), Energies, Volume 12(8), pp. art. no. 1514
  8. SuperOx, 2018, 2G HTS Tape Performance and Specifications, SuperOx Moscow Russia, <http://www.superox.ru.com>, Дата на последен преглед (Last accessed on): 03.12.2019
  9. Ansys Inc., 2017, Ansys-Maxwell 2D User?s Guide, Ansys Inc. Southpointe, <http://www.ansys.com>, Дата на последен преглед (Last accessed on): 03.12.2019
  10. Dergachev, P.A., Kurbatova, E.P., Kurbatov, P.A., Kulaev, Y.V., 2018, Force Interaction in Magnetic Systems with a Volumetric High-Temperature Superconductor, Russian Electrical Engineering, Volume 89(8), pp. pp. 496-500
  11. Kurbatova, E., Kurbatov, P., Dergachev, P., Molokanov, O., 2018, Electromagnetic analysis of HTS generator with bulk superconductor, Bourgas, Bulgaria, 3-6 June 2018, <20th International Symposium on Electrical Apparatus and Technologies, SIELA 2018 - Proceedingsart. no. 8447118>, IEEE

Issue
11th Electrical Engineering Faculty Conference, BulEF 2019, vol. BulEF 2019, issue 11, pp. Article number 9030742, 2019, Bulgaria, IEEE Inc, DOI 10.1109/BulEF48056.2019.9030742

Copyright IEEE

Вид: пленарен доклад в международен форум, публикация в реферирано издание, индексирана в Scopus