Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Kulikovskii, A. G.
1975.
Flows of a conducting incompressible liquid in an arbitrary region with a strong magnetic field.
Fluid Dynamics,
Vol. 8,
Issue. 3,
p.
462.
Shercliff, J. A.
1981.
The boundary layer on a wall nearly parallel to a magnetic field.
ZAMP Zeitschrift f�r angewandte Mathematik und Physik,
Vol. 32,
Issue. 5,
p.
546.
1985.
Single- and Multi-Phase Flows in an Electromagnetic Field: Energy, Metallurgical, and Solar Applications.
p.
17.
Walker, John S.
Brown, Samuel H.
and
Sondergaard, Neal A.
1988.
Further studies of liquid-metal flows and power losses in ducts with a moving conducting wall and a skewed magnetic field.
Journal of Applied Physics,
Vol. 64,
Issue. 4,
p.
1736.
Walker, John S.
Brown, Samuel H.
and
Sondergaard, Neal A.
1988.
Liquid-metal flows and power losses in ducts with moving conducting wall and skewed magnetic field.
Journal of Applied Physics,
Vol. 64,
Issue. 1,
p.
48.
Tillack, M.S.
Ying, A.Y.
and
Hashizume, H.
1990.
The effect of magnetic field alignment on heat transfer in liquid metal blanket channels.
p.
376.
Moreau, René
1990.
Magnetohydrodynamics.
Vol. 3,
Issue. ,
p.
110.
1993.
Advances in Turbulence Studies.
p.
165.
Morley, Neil B.
and
Roberts, Paul H.
1996.
Solutions of uniform, open-channel, liquid metal flow in a strong, oblique magnetic field.
Physics of Fluids,
Vol. 8,
Issue. 4,
p.
923.
Alboussière, T.
Garandet, J. P.
and
Moreau, R.
1996.
Asymptotic analysis and symmetry in MHD convection.
Physics of Fluids,
Vol. 8,
Issue. 8,
p.
2215.
Talmage, G.
Shyu, S.-H.
Moeny, M.J.
Tavener, S.
and
Cliffe, K.A.
1998.
Inertial effects on electrically conducting fluids in the presence of transverse magnetic fields: An example problem.
International Journal of Engineering Science,
Vol. 36,
Issue. 1,
p.
1.
Müller, U.
and
Bühler, L.
2002.
Magnetohydrodynamics.
p.
1.
Khanafer, K
Khaled, A-R A
and
Vafai, K
2004.
Spatial optimization of an array of aligned microcantilever based sensors.
Journal of Micromechanics and Microengineering,
Vol. 14,
Issue. 10,
p.
1328.
Li, Feng-Chen
Kunugi, Tomoaki
and
Serizawa, Akimi
2005.
MHD effect on flow structures and heat transfer characteristics of liquid metal–gas annular flow in a vertical pipe.
International Journal of Heat and Mass Transfer,
Vol. 48,
Issue. 12,
p.
2571.
Cowley, Martin
2007.
Magnetohydrodynamics.
Vol. 80,
Issue. ,
p.
131.
Mistrangelo, C.
and
Bühler, L.
2016.
Electro-magnetic flow coupling for liquid metal blanket applications.
Fusion Engineering and Design,
Vol. 109-111,
Issue. ,
p.
1452.
Tassone, Alessandro
Nobili, Matteo
and
Caruso, Gianfranco
2018.
Numerical study of the MHD flow around a bounded heating cylinder: Heat transfer and pressure drops.
International Communications in Heat and Mass Transfer,
Vol. 91,
Issue. ,
p.
165.
Zhang, Xiujie
Mao, Jie
Chen, Yanjing
Pan, Chuanjie
and
Xu, Zengyu
2019.
Investigations of liquid metal magnetohydrodynamic rectangular duct flows under inclined transversal magnetic fields.
Nuclear Fusion,
Vol. 59,
Issue. 5,
p.
056018.
Gherieb, Sihem
Kezzar, Mohamed
Nehal, Abdelaziz
and
Sari, Mohamed Rafik
2020.
A new improved generalized decomposition method (improved-GDM) for hydromagnetic boundary layer flow.
International Journal of Numerical Methods for Heat & Fluid Flow,
Vol. 30,
Issue. 10,
p.
4607.
Xiao, Xuejiao
and
Kim, Chang Nyung
2020.
Effects of the magnetic field direction and of the cross-sectional aspect ratio on the mass flow rate of MHD duct flows.
Fusion Engineering and Design,
Vol. 151,
Issue. ,
p.
111373.