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Artykuły w czasopismach na temat „Passive Magnetic Current Limiter”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 1 lutego 2022

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1

Mukhopadhyay, S. C., M. Iwahara, S. Yamada, and F. P. Dawson. "Studies of various topologies of passive magnetic current limiter." International Journal of Applied Electromagnetics and Mechanics 11, no. 4 (August 1, 2000): 245–54. http://dx.doi.org/10.3233/jae-2000-204.

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Calman, S., F. P. Dawson, S. Yamada, and M. Iwahara. "Design improvements to a three-material passive magnetic current limiter." IEEE Transactions on Magnetics 37, no. 4 (July 2001): 2624–26. http://dx.doi.org/10.1109/20.951255.

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Wilson, P. R. "Modeling the Non Linear Behavior of a Magnetic Fault Current Limiter." Advanced Electromagnetics 4, no. 3 (November 21, 2015): 1. http://dx.doi.org/10.7716/aem.v4i3.265.

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Fault Current Limiters are used in a wide array of applications from small circuit protection at low power levels to large scale high power applications which require superconductors and complex control circuitry. One advantage of passive fault current limiters (FCL) is the automatic behavior that is dependent on the intrinsic properties of the circuit elements rather than on a complex feedback control scheme making this approach attractive for low cost applications and also where reliability is critical. This paper describes the behavioral modeling of a passive Magnetic FCL and its potential
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4

Linden, John, Yasha Nikulshin, Alex Friedman, Yosef Yeshurun, and Shuki Wolfus. "Design Optimization of a Permanent-Magnet Saturated-Core Fault-Current Limiter." Energies 12, no. 10 (May 14, 2019): 1823. http://dx.doi.org/10.3390/en12101823.

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Designs of saturated-cores fault current limiters (FCLs) usually implement conducting or superconducting DC coils serving to saturate the magnetic cores during nominal grid performance. The use of coils adds significantly to the operational cost of the system, consuming energy, and requiring maintenance. A derivative of the saturated-cores FCL is a design implementing permanent magnets as an alternative to the DC coils, eliminating practically all maintenance due to its entirely passive components. There are, however, various challenges such as the need to reach deep saturation with the curren
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5

Choudhury, A. B., D. Roy, and M. Iwahara. "Field Distribution and Performance Analysis of a Passive Magnetic Fault-current Limiter under Transient Conditions." Electric Power Components and Systems 37, no. 11 (October 14, 2009): 1195–207. http://dx.doi.org/10.1080/15325000902993514.

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Das, Subhamoy, Tapan Santra, Amalendu Bikash Choudhury, Debabrata Roy, and Sotoshi Yamada. "Transient Modeling and Performance Analysis of a Passive Magnetic Fault Current Limiter Considering JA Hysteresis Model." Electric Power Components and Systems 47, no. 4-5 (March 16, 2019): 396–405. http://dx.doi.org/10.1080/15325008.2019.1603253.

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7

Foong Soong, Ming, Rahizar Ramli, Ahmad Abdullah Saifizul, and Mahdieh Zamzamzadeh. "Applicability of A Rotary Eddy Current Damper in Passenger Vehicle Suspension with Parallel Inerter." International Journal of Engineering & Technology 7, no. 3.17 (August 1, 2018): 76. http://dx.doi.org/10.14419/ijet.v7i3.17.16626.

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Numerous studies have proven that the performance of vehicle suspension can be benefited by an inerter in parallel to conventional spring-damper setup, yet its usability in passenger vehicle suspension is still limited by practical consideration in physical implementation. One way of achieving better physical implementation of the parallel inerter suspension layout is to exploit the inerter’s flywheel as a metallic conductor to integrate passive damping in the form of a rotary eddy current damper. However, the feasibility of eddy current damping in this specific application remains unknown. Th
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8

Przysowa, Radosław, and Edward Rokicki. "Inductive sensors for blade tip-timing in gas turbines." Journal of KONBiN 36, no. 1 (December 1, 2015): 147–64. http://dx.doi.org/10.1515/jok-2015-0064.

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Abstract The paper reviews features and applications of the upgraded inductive sensor for BTT, which is able to operate in contact with exhaust gases of temperature even as high as 1200 K. The new design includes metal-ceramic housing ensuring proper heat transfer, magnetic circuit containing set of permanent magnets with various magnetic field values and Curie temperatures, completely redesigned windings and current/voltage converter used instead of an electromotive force amplifier. Its principle of operation is based on electro-dynamical interaction and therefore it may be referred as a pass
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9

Sederberg, Shawn, Curtis J. Firby, Shawn R. Greig, and Abdulhakem Y. Elezzabi. "Integrated nanoplasmonic waveguides for magnetic, nonlinear, and strong-field devices." Nanophotonics 6, no. 1 (January 6, 2017): 235–57. http://dx.doi.org/10.1515/nanoph-2016-0135.

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AbstractAs modern complementary-metal-oxide-semiconductor (CMOS) circuitry rapidly approaches fundamental speed and bandwidth limitations, optical platforms have become promising candidates to circumvent these limits and facilitate massive increases in computational power. To compete with high density CMOS circuitry, optical technology within the plasmonic regime is desirable, because of the sub-diffraction limited confinement of electromagnetic energy, large optical bandwidth, and ultrafast processing capabilities. As such, nanoplasmonic waveguides act as nanoscale conduits for optical signal
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10

Cha, Y. S., Zhongjin Yang, L. R. Turner, and R. B. Poeppel. "Analysis of a passive superconducting fault current limiter." IEEE Transactions on Appiled Superconductivity 8, no. 1 (March 1998): 20–25. http://dx.doi.org/10.1109/77.662690.

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11

Mazza, Fabio, and Rodolfo Labernarda. "Magnetic damped links to reduce internal seismic pounding in base-isolated buildings." Bulletin of Earthquake Engineering 18, no. 15 (September 25, 2020): 6795–824. http://dx.doi.org/10.1007/s10518-020-00961-6.

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AbstractA limited gap between closely spaced structural parts may induce internal pounding in seismically isolated structures, because of notable displacement at the level of the isolation system under severe earthquakes. A gap between a fixed-base elevator shaft and the surrounding building is presented here with reference to a reinforced concrete building located in the Sicilian town of Augusta. The building, comprising a basement and three storeys above the ground level, is seismically isolated at the top of rigid columns in the basement with a hybrid isolation system including elastomeric
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12

Cristache, Cristian, Efren Diez-Jimenez, Ignacio Valiente-Blanco, Juan Sanchez-Garcia-Casarrubios, and Jose-Luis Perez-Diaz. "Aeronautical Magnetic Torque Limiter for Passive Protection against Overloads." Machines 4, no. 3 (September 7, 2016): 17. http://dx.doi.org/10.3390/machines4030017.

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13

Iwahara, M., S. C. Mukhopadhyay, S. Yamada, and F. P. Dawson. "Development of passive fault current limiter in parallel biasing mode." IEEE Transactions on Magnetics 35, no. 5 (1999): 3523–25. http://dx.doi.org/10.1109/20.800577.

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14

Hermann, J. A. "Simple Model for a Passive Optical Power Limiter." Optica Acta: International Journal of Optics 32, no. 5 (May 1985): 541–47. http://dx.doi.org/10.1080/713821756.

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15

Fabbri, M., A. Morandi, F. Negrini, and P. L. Ribani. "Magnetic-Shield-Type Fault Current Limiter Equivalent Circuit." IEEE Transactions on Appiled Superconductivity 14, no. 3 (September 2004): 1966–73. http://dx.doi.org/10.1109/tasc.2004.830602.

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16

Mukherjee, A., S. C. Mukhopadhyay, M. Iwahara, S. Yamada, and F. P. Dawson. "A numerical method for analyzing a passive fault current limiter considering hysteresis." IEEE Transactions on Magnetics 34, no. 4 (July 1998): 2048–50. http://dx.doi.org/10.1109/20.706789.

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17

Iwahara, M., S. Yamada, and F. P. Dawson. "Core Configuration and Characteristics of a Passive Current Limiter Using a Permanent Magnet." Journal of the Magnetics Society of Japan 21, no. 5 (1997): 907–10. http://dx.doi.org/10.3379/jmsjmag.21.907.

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18

Xiang, Bin, Nuo Cheng, Kun Yang, Zhiyuan Liu, Yingsan Geng, Jianhua Wang, and Satoru Yanabu. "SF6 passive resonance DC circuit breaker combined with a superconducting fault current limiter." IET Generation, Transmission & Distribution 14, no. 14 (July 17, 2020): 2869–78. http://dx.doi.org/10.1049/iet-gtd.2019.1876.

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19

Shen, Haocong, Fei Mei, Jianyong Zheng, Haoyuan Sha, and Changjia She. "Three-Phase Saturated-Core Fault Current Limiter." Energies 11, no. 12 (December 12, 2018): 3471. http://dx.doi.org/10.3390/en11123471.

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The saturated-core fault current limiter (SFCL) is widely used to limit the fault current. However, in the conventional SFCL structure, alternating current (AC) and direct current (DC) coils are wound on different loosely coupled cores. Owing to the leakage inductance, the traditional structure demonstrates relatively large demand for DC excitation power and excessive impedance during saturation. In this study, a new structure for winding closely coupled DC and AC coils on the same core in three phases is proposed to reduce the influence of leakage reactance on the SFCL performance. The leakag
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20

Mukhopadhyay, S. C., M. Iwahara, and S. Yamada. "Necessity of electromagnetic field computation for the magnetic current limiter." International Journal of Applied Electromagnetics and Mechanics 14, no. 1-4 (December 20, 2002): 47–50. http://dx.doi.org/10.3233/jae-2002-346.

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21

Kaiho, K., H. Yamaguchi, K. Arai, M. Umeda, M. Yamaguchi, and T. Kataoka. "A current limiter with superconducting coil for magnetic field shielding." Physica C: Superconductivity 354, no. 1-4 (May 2001): 115–19. http://dx.doi.org/10.1016/s0921-4534(01)00061-2.

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22

Mukhopadhyay, S. C., F. P. Dawson, M. Iwahara, and S. Yamada. "A novel compact magnetic current limiter for three phase applications." IEEE Transactions on Magnetics 36, no. 5 (2000): 3568–70. http://dx.doi.org/10.1109/20.908900.

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23

Abeygunawardane, S. K., J. R. S. Sisira Kumara, J. B. Ekanayake, and A. Arulampalam. "A magnetic-core based fault current limiter for utility applications." Journal of the National Science Foundation of Sri Lanka 39, no. 3 (September 27, 2011): 227. http://dx.doi.org/10.4038/jnsfsr.v39i3.3626.

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24

Fajoni, F., E. Ruppert, C. A. Baldan, and C. Y. Shigue. "Study of Superconducting Fault Current Limiter Using Saturated Magnetic Core." Journal of Superconductivity and Novel Magnetism 28, no. 2 (November 21, 2014): 685–90. http://dx.doi.org/10.1007/s10948-014-2871-y.

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25

Kajikawa, Kazuhiro, Katsuyuki Kaiho, Noriharu Tamada, and Toshitada Onishi. "Magnetic-shield type superconducting fault current limiter with highTc superconductors." Electrical Engineering in Japan 115, no. 6 (October 1995): 104–11. http://dx.doi.org/10.1002/eej.4391150611.

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26

Belmont, O., P. Tixador, J. G. Noudem, P. Ferracci, L. Porcar, D. Bourgault, J. M. Barbut, and R. Tournier. "Fault current limiter using bulk oxides superconductors." European Physical Journal Applied Physics 2, no. 2 (May 1998): 139–43. http://dx.doi.org/10.1051/epjap:1998176.

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27

Huaren Wu, Xiaohui Li, Min Zhang, D. Stade, and H. Schau. "Analysis of a Liquid Metal Current Limiter." IEEE Transactions on Components and Packaging Technologies 32, no. 3 (September 2009): 572–77. http://dx.doi.org/10.1109/tcapt.2009.2024157.

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28

Iwahara, Masayoshi, Subhas C. Mukhopadhyay, Sotoshi Yamada, and Francis P. Dawson. "Flux distribution of passive fault current limiter based on saturable core and permanent magnet." COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering 17, no. 2 (1998): 232–38. http://dx.doi.org/10.1108/03321649810208247.

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29

Wang, Zhigao, Shuhong Wang, Jie Qiu, Weizhi Gong, and Jingyin Zhang. "Induced voltage analysis of superconducting fault current limiter." COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering 33, no. 1/2 (December 20, 2013): 38–46. http://dx.doi.org/10.1108/compel-11-2012-0342.

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Purpose – Saturated core type superconducting fault current limiter (SFCL) can effectively limit the short-circuit current in power system. However, the high induced voltage will occur between the terminals of DC superconducting bias winding caused by the variation of magnetic flux linked by DC winding due to the increasing short-circuit current. The DC source may be damaged. Thus, the induced voltage should be considered in DC winding design. The paper aims to discuss these issues. Design/methodology/approach – Three-dimensional finite element method coupled with electric circuit. Findings –
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30

Kado, H., and M. Ickikawa. "Performance of a high-Tc superconducting fault current limiter-design of a 6.6 kV magnetic shielding type superconducting fault current limiter." IEEE Transactions on Appiled Superconductivity 7, no. 2 (June 1997): 993–96. http://dx.doi.org/10.1109/77.614672.

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31

Yang, Kun, Yi Yang, Muhammad Junaid, Siyuan Liu, Zhiyuan Liu, Yingsan Geng, and Jianhua Wang. "Direct-Current Vacuum Circuit Breaker With Superconducting Fault-Current Limiter." IEEE Transactions on Applied Superconductivity 28, no. 1 (January 2018): 1–8. http://dx.doi.org/10.1109/tasc.2017.2767500.

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32

Yamaguchi, H., K. Yoshikawa, M. Nakamura, T. Kataoka, and K. Kaiho. "Current Limiting Characteristics of Transformer Type Superconducting Fault Current Limiter." IEEE Transactions on Appiled Superconductivity 15, no. 2 (June 2005): 2106–9. http://dx.doi.org/10.1109/tasc.2005.849463.

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33

Kang, Ji-Seong, and Young-Hyun Moon. "Solid-State Fault Current Limiter based on Magnetic Turn off Principle." Journal of International Council on Electrical Engineering 4, no. 2 (April 2014): 95–101. http://dx.doi.org/10.5370/jicee.2014.4.2.095.

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34

Kajikawa, Kazuhiro, Katsuyuki Kaiho, Noriharu Tamada, and Toshitada Onishi. "Magnetic-shield type Superconducting Fault Current Limiter with High Tc Superconductors." IEEJ Transactions on Industry Applications 114, no. 10 (1994): 1026–31. http://dx.doi.org/10.1541/ieejias.114.1026.

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35

Jin, J. X., S. X. Dou, C. Cook, C. Grantham, M. Apperley, and T. Beales. "Magnetic saturable reactor type HTS fault current limiter for electrical application." Physica C: Superconductivity 341-348 (November 2000): 2629–30. http://dx.doi.org/10.1016/s0921-4534(00)01402-7.

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36

Qu, Lu, Rong Zeng, Zhanqing Yu, and Ge Li. "Design and test of a magnetic saturation-type fault current limiter." Journal of Engineering 2019, no. 16 (March 1, 2019): 2974–79. http://dx.doi.org/10.1049/joe.2018.8409.

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37

Ishihara, N., S. C. Mukhopadhyay, M. Iwahara, and S. Yamada. "Dependency of the Core Characterization on a Passive Fault Current Limiter Using a Permanent Magnet." Journal of the Magnetics Society of Japan 22, no. 4_2 (1998): 725–28. http://dx.doi.org/10.3379/jmsjmag.22.725.

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38

Bouty, Olivier. "Eddy current losses in passive magnetic bearings." Journal of Applied Physics 92, no. 11 (December 2002): 6851–56. http://dx.doi.org/10.1063/1.1516874.

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39

Arsénio, Pedro, Nuno Vilhena, João Murta-Pina, Anabela Pronto, and Alfredo Álvarez. "Design Aspects and Test of an Inductive Fault Current Limiter." Electrical, Control and Communication Engineering 5, no. 1 (May 1, 2014): 40–45. http://dx.doi.org/10.2478/ecce-2014-0006.

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Abstract Magnetic shielding inductive fault current limiters with high temperature superconducting tapes are considered as emerging devices that provide technology for the advent of modern power grids. The development of such limiters requires magnetic iron cores and leads to several design challenges regarding the constitutive parts of the limiter, namely the primary and secondary windings. Preliminary tests in a laboratory scale prototype have been carried out considering an assembly designed for simplicity in which the optimization of the magnetic coupling between the primary and secondary
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40

Arai, K., H. Tanaka, M. Inaba, H. Arai, T. Ishigohka, M. Furuse, and M. Umeda. "Test of Resonance-Type Superconducting Fault Current Limiter." IEEE Transactions on Applied Superconductivity 16, no. 2 (June 2006): 650–53. http://dx.doi.org/10.1109/tasc.2006.870523.

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41

Cai, Y., S. Okuda, T. Odake, T. Yagai, M. Tsuda, and T. Hamajima. "Study on Three-Phase Superconducting Fault Current Limiter." IEEE Transactions on Applied Superconductivity 20, no. 3 (June 2010): 1127–30. http://dx.doi.org/10.1109/tasc.2009.2039778.

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42

Aljabrine, Abdulwahab, Hangtian Lei, Herbert Hess, Brian K. Johnson, and Jianzhao Geng. "Superconducting Fault Current Limiter Application for Induction Motor Starting Current Reduction." IEEE Transactions on Applied Superconductivity 29, no. 5 (August 2019): 1–4. http://dx.doi.org/10.1109/tasc.2019.2898475.

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43

Hatta, H., T. Nitta, S. Muroya, T. Oide, Y. Shirai, M. Taguchi, and Y. Miyato. "Study on recovery current of transformer type superconducting fault current limiter." IEEE Transactions on Appiled Superconductivity 13, no. 2 (June 2003): 2096–99. http://dx.doi.org/10.1109/tasc.2003.812990.

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44

Onishi, T., and A. Nii. "Investigations on current limiting performances in magnetic shield type high Tc superconducting fault current limiter." Cryogenics 37, no. 4 (April 1997): 181–85. http://dx.doi.org/10.1016/s0011-2275(97)00008-8.

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45

Pan, Yan-xia, and Jian-guo Jiang. "Bias current influence on the characteristic of the magnetic-controlled switcher type fault current limiter." Journal of Shanghai Jiaotong University (Science) 14, no. 3 (June 2009): 359–64. http://dx.doi.org/10.1007/s12204-009-0359-x.

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46

Passos, C. A. C., M. S. Bolzan, M. T. D. Orlando, I. M. Capucho, V. T. Abilio, L. C. Machado, and J. L. Passamai. "Performance of a Polycrystalline SmBaCuO Superconducting Fault Current Limiter." Journal of Superconductivity and Novel Magnetism 28, no. 10 (June 16, 2015): 2945–52. http://dx.doi.org/10.1007/s10948-015-3141-3.

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47

Young, S., F. P. Dawson, M. Iwahara, and S. Yamada. "A comparison between a two-material and three-material magnetic current limiter." Journal of Applied Physics 83, no. 11 (June 1998): 7103–5. http://dx.doi.org/10.1063/1.367532.

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48

Viana, R. L., and I. L. Caldas. "Peripheral Stochasticity in Tokamaks.The Martin-Taylor Revisited." Zeitschrift für Naturforschung A 47, no. 9 (September 1, 1992): 941–44. http://dx.doi.org/10.1515/zna-1992-0903.

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Abstract We analyse the effect of an Ergodic Magnetic Limiter on the magnetic field line dynamics in the edge of a large aspect-ratio Tokamak. We model the limiter action as an impulsive perturbation and use a peaked-current model for the Tokamak equilibrium field. The theoretical analysis is made through the use of invariant flux functions describing magnetic surfaces. Results are compared with a numerical mapping of the field lines
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49

Zhong, Yongheng, Yaoheng Xie, Yun Liu, Huisheng Ye, Jiaxin Yuan, Hang Zhou, and Liangliang Wei. "A Novel Multi-Function Saturated-Core Fault Current Limiter." IEEE Transactions on Magnetics 55, no. 6 (June 2019): 1–5. http://dx.doi.org/10.1109/tmag.2019.2905356.

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50

Adamopoulos, N., and S. K. Patapis. "Fault current limiter model device: Characterisation and simulation." Physica C: Superconductivity 341-348 (November 2000): 2631–32. http://dx.doi.org/10.1016/s0921-4534(00)01403-9.

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