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Combined Electromagnetic Suspensions with Reduced Energy Consumption for Levitation Vehicles. / Andreev, E.N.; Arslanova, D.N.; Akhmetzyanova, E.V.; Bazarov, A.M.; Vasil’ev, V.N.; Vasil’eva, O. S.; Verkhoturov, M.S.; Gapionok, E.I.; Demina, A.A.; Zavadskii, S.V.; Zenkevich, M.Yu.; Kaparkova, M.V.; Kuz’menkov, V.D.; Labusov, A.N.; Larionov, M.S.; Manzuk, M.V.; Mizintsev, A.V.; Nezhentsev, A.N.; Ovsyannikov, D.A.; Ovsyannikov, A.D.; Khokhlov, M.V.

In: Technical Physics, Vol. 64, No. 7, 01.07.2019, p. 1060-1065.

Research output: Contribution to journalArticlepeer-review

Harvard

Andreev, EN, Arslanova, DN, Akhmetzyanova, EV, Bazarov, AM, Vasil’ev, VN, Vasil’eva, OS, Verkhoturov, MS, Gapionok, EI, Demina, AA, Zavadskii, SV, Zenkevich, MY, Kaparkova, MV, Kuz’menkov, VD, Labusov, AN, Larionov, MS, Manzuk, MV, Mizintsev, AV, Nezhentsev, AN, Ovsyannikov, DA, Ovsyannikov, AD & Khokhlov, MV 2019, 'Combined Electromagnetic Suspensions with Reduced Energy Consumption for Levitation Vehicles', Technical Physics, vol. 64, no. 7, pp. 1060-1065. https://doi.org/10.1134/S1063784219070041

APA

Andreev, E. N., Arslanova, D. N., Akhmetzyanova, E. V., Bazarov, A. M., Vasil’ev, V. N., Vasil’eva, O. S., Verkhoturov, M. S., Gapionok, E. I., Demina, A. A., Zavadskii, S. V., Zenkevich, M. Y., Kaparkova, M. V., Kuz’menkov, V. D., Labusov, A. N., Larionov, M. S., Manzuk, M. V., Mizintsev, A. V., Nezhentsev, A. N., Ovsyannikov, D. A., ... Khokhlov, M. V. (2019). Combined Electromagnetic Suspensions with Reduced Energy Consumption for Levitation Vehicles. Technical Physics, 64(7), 1060-1065. https://doi.org/10.1134/S1063784219070041

Vancouver

Andreev EN, Arslanova DN, Akhmetzyanova EV, Bazarov AM, Vasil’ev VN, Vasil’eva OS et al. Combined Electromagnetic Suspensions with Reduced Energy Consumption for Levitation Vehicles. Technical Physics. 2019 Jul 1;64(7):1060-1065. https://doi.org/10.1134/S1063784219070041

Author

Andreev, E.N. ; Arslanova, D.N. ; Akhmetzyanova, E.V. ; Bazarov, A.M. ; Vasil’ev, V.N. ; Vasil’eva, O. S. ; Verkhoturov, M.S. ; Gapionok, E.I. ; Demina, A.A. ; Zavadskii, S.V. ; Zenkevich, M.Yu. ; Kaparkova, M.V. ; Kuz’menkov, V.D. ; Labusov, A.N. ; Larionov, M.S. ; Manzuk, M.V. ; Mizintsev, A.V. ; Nezhentsev, A.N. ; Ovsyannikov, D.A. ; Ovsyannikov, A.D. ; Khokhlov, M.V. / Combined Electromagnetic Suspensions with Reduced Energy Consumption for Levitation Vehicles. In: Technical Physics. 2019 ; Vol. 64, No. 7. pp. 1060-1065.

BibTeX

@article{f2e9afb3117b40d0955514a6c12f518c,
title = "Combined Electromagnetic Suspensions with Reduced Energy Consumption for Levitation Vehicles",
abstract = "At present, the development of magnetic levitation transportation is conducted based on electromagnetic and electrodynamic suspensions the technical and commercial implementation of which has been successfully demonstrated in Korea, China, Japan, and other countries. Sources of an electromagnetic field in suspensions can be normally conducting electromagnets, superconducting magnets and high-coercive permanent magnets. The progress made in the development of new magnetic materials (permanent magnets and high-temperature superconductors) opens up prospects for reducing the energy consumption of levitation transport systems. The authors proposed magnets of all three types, which together ensure the functioning of combined electromagnetic suspension, and created scale models of such magnets. The permanent levitation of suspension models with a load is provided. The correctness of technical solutions is confirmed, software created in the Russian Federation allows one to reliably-scale magnetic systems of suspensions. Thus, all the prerequisites have been completed for the next stage of creating full-scale prototypes of effective levitation systems, in particular, a 50-ton cargo platform.",
author = "E.N. Andreev and D.N. Arslanova and E.V. Akhmetzyanova and A.M. Bazarov and V.N. Vasil{\textquoteright}ev and Vasil{\textquoteright}eva, {O. S.} and M.S. Verkhoturov and E.I. Gapionok and A.A. Demina and S.V. Zavadskii and M.Yu. Zenkevich and M.V. Kaparkova and V.D. Kuz{\textquoteright}menkov and A.N. Labusov and M.S. Larionov and M.V. Manzuk and A.V. Mizintsev and A.N. Nezhentsev and D.A. Ovsyannikov and A.D. Ovsyannikov and M.V. Khokhlov",
year = "2019",
month = jul,
day = "1",
doi = "10.1134/S1063784219070041",
language = "English",
volume = "64",
pages = "1060--1065",
journal = "Technical Physics",
issn = "1063-7842",
publisher = "Pleiades Publishing",
number = "7",

}

RIS

TY - JOUR

T1 - Combined Electromagnetic Suspensions with Reduced Energy Consumption for Levitation Vehicles

AU - Andreev, E.N.

AU - Arslanova, D.N.

AU - Akhmetzyanova, E.V.

AU - Bazarov, A.M.

AU - Vasil’ev, V.N.

AU - Vasil’eva, O. S.

AU - Verkhoturov, M.S.

AU - Gapionok, E.I.

AU - Demina, A.A.

AU - Zavadskii, S.V.

AU - Zenkevich, M.Yu.

AU - Kaparkova, M.V.

AU - Kuz’menkov, V.D.

AU - Labusov, A.N.

AU - Larionov, M.S.

AU - Manzuk, M.V.

AU - Mizintsev, A.V.

AU - Nezhentsev, A.N.

AU - Ovsyannikov, D.A.

AU - Ovsyannikov, A.D.

AU - Khokhlov, M.V.

PY - 2019/7/1

Y1 - 2019/7/1

N2 - At present, the development of magnetic levitation transportation is conducted based on electromagnetic and electrodynamic suspensions the technical and commercial implementation of which has been successfully demonstrated in Korea, China, Japan, and other countries. Sources of an electromagnetic field in suspensions can be normally conducting electromagnets, superconducting magnets and high-coercive permanent magnets. The progress made in the development of new magnetic materials (permanent magnets and high-temperature superconductors) opens up prospects for reducing the energy consumption of levitation transport systems. The authors proposed magnets of all three types, which together ensure the functioning of combined electromagnetic suspension, and created scale models of such magnets. The permanent levitation of suspension models with a load is provided. The correctness of technical solutions is confirmed, software created in the Russian Federation allows one to reliably-scale magnetic systems of suspensions. Thus, all the prerequisites have been completed for the next stage of creating full-scale prototypes of effective levitation systems, in particular, a 50-ton cargo platform.

AB - At present, the development of magnetic levitation transportation is conducted based on electromagnetic and electrodynamic suspensions the technical and commercial implementation of which has been successfully demonstrated in Korea, China, Japan, and other countries. Sources of an electromagnetic field in suspensions can be normally conducting electromagnets, superconducting magnets and high-coercive permanent magnets. The progress made in the development of new magnetic materials (permanent magnets and high-temperature superconductors) opens up prospects for reducing the energy consumption of levitation transport systems. The authors proposed magnets of all three types, which together ensure the functioning of combined electromagnetic suspension, and created scale models of such magnets. The permanent levitation of suspension models with a load is provided. The correctness of technical solutions is confirmed, software created in the Russian Federation allows one to reliably-scale magnetic systems of suspensions. Thus, all the prerequisites have been completed for the next stage of creating full-scale prototypes of effective levitation systems, in particular, a 50-ton cargo platform.

UR - http://www.scopus.com/inward/record.url?scp=85070208015&partnerID=8YFLogxK

UR - http://www.mendeley.com/research/combined-electromagnetic-suspensions-reduced-energy-consumption-levitation-vehicles

U2 - 10.1134/S1063784219070041

DO - 10.1134/S1063784219070041

M3 - Article

AN - SCOPUS:85070208015

VL - 64

SP - 1060

EP - 1065

JO - Technical Physics

JF - Technical Physics

SN - 1063-7842

IS - 7

ER -

ID: 46195518