International Journal of Fluid Mechanics Research
Published 6 issues per year
ISSN Print: 2152-5102
ISSN Online: 2152-5110
IF:
1.1
5-Year IF:
1.3
Eigenfactor:
0.0002
JCI:
0.33
SJR:
0.256
SNIP:
0.49
CiteScore™::
2.4
H-Index:
23
Indexed in
Interaction of Liquid Metal with a Rotating Magnetic Field
Volume 28,
Issue 4, 2001,
8 pages
DOI: 10.1615/InterJFluidMechRes.v28.i4.90
ABSTRACT
Induction effect on magnitudes and distributions of both magnetic and velocity fields, when a conductive fluid, placed in a finite cylindrical container, interacts with a rotating magnetic field with arbitrary number of pole couples, is studied. Analysis of the flow behavior is grounded on the semiempirical model of "external friction". A dependence between the optimal values of the magnetic field frequency and the flow field dimensions is established. A satisfactory agreement between the theoretical and experimental data is achieved at various flow regimes.
322 Article views
5 Article downloads
Metrics
Articles with similar content:
Forthcoming Articles
A computational study for air-solid particles flow patterns in rib-roughened fluidized bed vessels
Offset coalescence behaviour of impacting low-surface tension droplet on high-surface-tension droplet
On Parametric Study of Fluid Leaves and Fluid Pineapple
Theoretical study of three-dimensional turbulent boundary layer over a rotating cone or disk
Methods of Turbulent Combustion Investigation: A Review Article
Flow structures in the wake region of an L-shaped cylinder and a triangular cylinder