Mots-clés : electrodynamic suspension, simulation, computational technique, permanent magnet.
@article{VSPUI_2015_2_a1,
author = {V. M. Amoskov and D. N. Arslanova and A. M. Bazarov and A. V. Belov and V. A. Belyakov and T. F. Belyakova and A. A. Firsov and E. I. Gapionok and M. V. Kaparkova and V. P. Kukhtin and E. A. Lamzin and M. S. Larionov and N. A. Maximenkova and V. M. Mikhailov and A. N. Nezhentzev and D. A. Ovsyannikov and A. D. Ovsyannikov and I. Yu. Rodin and S. E. Sychevsky and V. N. Vasiliev and A. A. Zaitzev and N. A. Shatil},
title = {Simulation of electrodynamic suspension systems for levitating vehicles. {II.} {Validation} of computational models},
journal = {Vestnik Sankt-Peterburgskogo universiteta. Prikladna\^a matematika, informatika, processy upravleni\^a},
pages = {17--31},
year = {2015},
number = {2},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/VSPUI_2015_2_a1/}
}
TY - JOUR AU - V. M. Amoskov AU - D. N. Arslanova AU - A. M. Bazarov AU - A. V. Belov AU - V. A. Belyakov AU - T. F. Belyakova AU - A. A. Firsov AU - E. I. Gapionok AU - M. V. Kaparkova AU - V. P. Kukhtin AU - E. A. Lamzin AU - M. S. Larionov AU - N. A. Maximenkova AU - V. M. Mikhailov AU - A. N. Nezhentzev AU - D. A. Ovsyannikov AU - A. D. Ovsyannikov AU - I. Yu. Rodin AU - S. E. Sychevsky AU - V. N. Vasiliev AU - A. A. Zaitzev AU - N. A. Shatil TI - Simulation of electrodynamic suspension systems for levitating vehicles. II. Validation of computational models JO - Vestnik Sankt-Peterburgskogo universiteta. Prikladnaâ matematika, informatika, processy upravleniâ PY - 2015 SP - 17 EP - 31 IS - 2 UR - http://geodesic.mathdoc.fr/item/VSPUI_2015_2_a1/ LA - ru ID - VSPUI_2015_2_a1 ER -
%0 Journal Article %A V. M. Amoskov %A D. N. Arslanova %A A. M. Bazarov %A A. V. Belov %A V. A. Belyakov %A T. F. Belyakova %A A. A. Firsov %A E. I. Gapionok %A M. V. Kaparkova %A V. P. Kukhtin %A E. A. Lamzin %A M. S. Larionov %A N. A. Maximenkova %A V. M. Mikhailov %A A. N. Nezhentzev %A D. A. Ovsyannikov %A A. D. Ovsyannikov %A I. Yu. Rodin %A S. E. Sychevsky %A V. N. Vasiliev %A A. A. Zaitzev %A N. A. Shatil %T Simulation of electrodynamic suspension systems for levitating vehicles. II. Validation of computational models %J Vestnik Sankt-Peterburgskogo universiteta. Prikladnaâ matematika, informatika, processy upravleniâ %D 2015 %P 17-31 %N 2 %U http://geodesic.mathdoc.fr/item/VSPUI_2015_2_a1/ %G ru %F VSPUI_2015_2_a1
V. M. Amoskov; D. N. Arslanova; A. M. Bazarov; A. V. Belov; V. A. Belyakov; T. F. Belyakova; A. A. Firsov; E. I. Gapionok; M. V. Kaparkova; V. P. Kukhtin; E. A. Lamzin; M. S. Larionov; N. A. Maximenkova; V. M. Mikhailov; A. N. Nezhentzev; D. A. Ovsyannikov; A. D. Ovsyannikov; I. Yu. Rodin; S. E. Sychevsky; V. N. Vasiliev; A. A. Zaitzev; N. A. Shatil. Simulation of electrodynamic suspension systems for levitating vehicles. II. Validation of computational models. Vestnik Sankt-Peterburgskogo universiteta. Prikladnaâ matematika, informatika, processy upravleniâ, no. 2 (2015), pp. 17-31. http://geodesic.mathdoc.fr/item/VSPUI_2015_2_a1/
[1] Bakhvalov Yu., Bocharov V., Vinokurov V., Nagorsky V., Vehicles with magnetic suspension, eds. V. Bocharov, V. Nagorsky, Mashinostroenie Publ., M., 1991, 320 pp. (in Russ.)
[2] Dzenzersky V., Omelyanenko V., Vasiliev S., Matin V., Sergeev S., High-speed levitating transport with electrodynamic suspension, Naukova dumka, Kiev, 2001, 482 pp. (in Russ.)
[3] Kim K., Transportation systems employing magnetic suspension and superconducting magnet technology, Educational and Methodological Centre for Rail Transport Technology, M., 2007, 360 pp. (in Russ.)
[4] Zaitzev A., Talashkin G., Sokolova Yu., Maglev transportation, State Transport University Publ., St. Petersburg, 2010, 160 pp. (in Russ.)
[5] Tamm I., Basis of Electricity Theory, Nauka Publ., M., 1989, 620 pp. (in Russ.)
[6] Shneerson G., Fields and transients in high-power facilities, Energoatomizdat Publ., M., 1992, 416 pp. (in Russ.)
[7] Astakhov V. I., Vyaltseva T. M., Kirsanova G. A. e. a., “Analysis of the electrodynamic suspension (EAF) route structure with complex profile”, High-speed above-ground tranport, ed. V. Bocharov, Izd-vo Novocherkassk. politech. un-ta, Novocherkassk, 1979, 6–16 (in Russ.)
[8] Astakhov V. I., “Motion of conducting strip in magnetic field”, Bull. of Universities. Electromechanics, 1977, no. 8, 846–857 (in Russ.)
[9] Astakhov V. I., “Motion of shaped conductors in magnetic field”, Bull. of Universities. Electromechanics, 1979, no. 11, 970–982 (in Russ.)
[10] Astakhov V. I., “On calculations of electromagnetic forces acting on current-carrying solids”, Bull. of Universities. Electromechanics, 1984, no. 10, 5–14 (in Russ.)
[11] Amoskov V. M., Arslanova D. N., Bazarov A. M., Belov A. V., Belyakov V. A., Belyakova T. F., Firsov A. A., Gapionok E. I., Kaparkova M. V., Kukhtin V. P., Lamzin E. A., Larionov M. S., Maximenkova N. A., Mikhailov V. M., Nezhentzev A. N., Ovsyannikov D. A., Ovsyannikov A. D., Rodin I. Yu., Shatil N. A., Sychevsky S. E., Vasiliev V. N., Zaitzev A. A., “Simulation of electrodynamic suspension systems for levitating vehicles. I: Modelling of electromagnetic behaviour of maglev vehicles with electrodynamic suspension”, Vestn. of St. Petersburg University. Series 10. Applied mathematics. Computer science. Control processes, 2014, no. 4, 5–15 (in Russ.)
[12] Amoskov V., Belov A., Belyakov V., Belyakova T., Filatov O., Gapionok E., Garkusha D., Kokotkov V., Kukhtin V., Lamzin E., Sychevsky S., TYPHOON 2.0: computer code for 3D simulation of electromagnetic transients using the thin shell approach, Computer Program Register. Registration Certificate 2003612496 of Nov. 12, 2003, Rospatent, M., 2003 (in Russ.)
[13] Belov A., Belyakov V., Belyakova T., Gapionok E., Kukhtin V., Lamzin E., Maksimenkova N., Mazul I., Shatil D., Sytchevsky S., “Status of RF PT numerical instrumentation for EM analysis of 3D conducting structures of ITER facility”, ITER Blanket meeting (Prague, 3–6 June, 2008), 20 pp.
[14] Bossavit A., “A rationale for edge elements in 3D field computations”, IEEE Trans. Mag., 24 (1988), 74–79
[15] Albanese R., Rubinacci G., “Analysis of three dimensional electromagnetic fields using edge elements”, J. Comp. Phys., 108 (1993), 236–245 | Zbl
[16] Gradinary V., Hiptmair R., “Whitney elements on pyramids”, Electronic Transaction on Numerical Analysis, 8 (1999), 154–168 | MR
[17] Halbach K., “Applications of permanent magnets in accelerators and electron storage rings”, Journal of Applied Physics, 57 (1985), 3605
[18] Amoskov V., Belov A., Belyakov V., Belyakova T., Filatov O., Gapionok E., Glukhih M., Kukhtin V., Lamzin E., Maximenkova N., Mingalev B., Sychevsky S., KLONDIKE 1.0: computer code for 3D simulation of magnet systems of complex geometry with retentive and non-retentive materials and current carrying components, Computer Program Register. Registration Certificate 2003612487 of Nov. 12, 2003, Rospatent, M., 2003 (in Russ.)
[19] Hoburg J. F., Post R. F., A Laminated Track for the Inductrack System: Theory and Experiment, UCRL-CONF-201819, Lawrence Livermore National Laboratory, Livermore, January 2004, 5 pp.
[20] Hoburg J. F., Post R. F., “A Laminated Track for the Inductrack System: Theory and Experiment”, 18th Intern. Conference on Magnetically Levitated Systems and Linear Drives (Shanghai, China, October 25–29, 2004), 17
[21] Post R. F., Ryutov D. D., The Inductrack: A Simpler Approach to Magnetic Levitaiton, UCRL-ID-124115, Lawrence Livermore National Laboratory, Livermore, May 1996, 10 pp.
[22] Post R. F., Ryutov D. D., The Inductrack Approach to Magnetic Levitaiton, UCRL-ID-138593, Lawrence Livermore National Laboratory, Livermore, April 2000, 6 pp.
[23] Post R. F., Inductrack Magnet Configuration, U.S. Patent No 6,633,217 B2, 13 pp.
[24] Post R. F., Laminated track design for Inductrack maglev systems, U.S. Patent No 6,758,146, 12 pp.