Unsteady fluctuations of a liquid metal flow in a closed volume inside an alternating magnetic field

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

An experimental and numerical study is performed on the fluctuations of a liquid metal flow under the action of electromagnetic forces in a closed volume. The flow is unsteady in the range of considered dimensionless parameters. The region of a solenoid exhibits the most pronounced velocity fluctuations. The amplitude and range of the fluctuations grow along with the Hartmann number.

About the authors

A. O. Poluyanov

Institute of Continuous Media Mechanics of the Ural Branch of the Russian Academy of Science

Email: poluyanov.a@icmm.ru
Perm, Russia

I. V. Kolesnichenko

Institute of Continuous Media Mechanics of the Ural Branch of the Russian Academy of Science

Perm, Russia

References

  1. Белова И. В., Брушлинский К. В. // Журн. вычисл. матем. и мат. физики. 1988. Т. 28. № 1. С. 72.
  2. Moffatt H.K. // Phys. Fluids A. Fluid Dynam. 1991. V. 3. No. 5. P. 1336.
  3. Poitou S., Branco P.J.C. // IEEE Trans. Magn. 2006. V. 42. No. 9. P. 2133.
  4. Timofeev V., Pervukhin M., Vinter E., Sergeev N. // Magnetohydrodynamics. 2020. V. 56. No. 4. P. 459.
  5. Wang X., Wang S., Zhang L. et al. // Metall. Mater. Trans. A. Springer Nature. 2016. V. 47. P. 5496.
  6. Колесниченко Н. В., Халилов Р. И. // Вычисл. механ. сплош. сред. 2022. Т. 15. № 4. С. 495.
  7. Tarapore Е. D., Evans I.W. // Metal. Trans. B (Process Metallurgy). 1976. V. 7. No. 3. P. 343.
  8. Cramer A., Galindo V., Zennaro M. // Magnetohydrodynamics. 2015. V. 51. No. 1. P. 133.
  9. Scopanskis M., Jakovics A., Baake E. et al. // Magnetohydrodynamics. 2012. V. 48. No. 4. P. 677.
  10. Staira Y., Fawaz S., Menana H. et al. // Fluid Dynam. Mater. Proc. 2022. V. 18. No. 5. P. 1529.
  11. Poluyanov A., Kolesnichenko I. // Fluid Dynam. Mater. Proc. 2024. V. 20. No. 7. P. 1553.
  12. Полуянов А. О., Колесниченко Н. В. // Вычисл. механ. сплош. сред. 2024. Т. 17. № 1. С. 24.
  13. Герус С.В., Локк Э.Г., Анненков А.Ю. // Изв. PAH. Сер. физ. 2021. Т. 85. № 11. С. 1538
  14. Пятников М. А., Акимов М. Л., Поляков П. А. // Изв. PAH. Сер. физ. 2021. Т. 85. № 11. С. 1568
  15. Смольянов Н. А., Шмаков Е. Н., Баакс Э. и др. // Вычисл. механ. сплош. сред. 2021. Т. 14. № 3. С. 322.
  16. Sarma M., Grants I., Herrmannsdorfer T. et. al. // J. Mater. Proc. Tech. 2021. V. 291. Art. No. 117041.
  17. Dobosz A., Plevachuk Y., Sklyarchuk V. et al. // Fluid Phase Equilibria. 2018. V. 465. P. 1.
  18. Losev G., Kolesnichenko I. // Flow Meas. Instrum. 2020. V. 75. Art. No. 101786.
  19. Franke S., Räbiger D., Galindo V. et. al. // Flow Meas. Instrum. 2016. V. 48. P. 64.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2025 Russian Academy of Sciences