Instability in electromagnetically driven flows Part I: Laminar case

CHRISTOPHE GISSINGER; PAOLA RODRIGUEZ IMAZIO; STÉPHAN FAUVE

PHYSICS OF FLUIDS

AMER INST PHYSICS

Lugar: New York; Año: 2016

1070-6631

The magnetohydrodynamic flow driven by a travelling magnetic field in an annular channel is investigated numerically. For sufficiently large magnetic Reynolds numberRm, or if a large enough pressure gradient is externally applied, the system undergoes an instability in which the flow rate in the channel dramatically drops from synchronism with the wave to much smaller velocities. This transition takes the form of a saddle-node bifurcation for the time-averaged quantities. In this first paper, we characterize the bifurcation and study the stability of the flow as a function of several parameters. We show that the bifurcation of the flow involves a bistability between Poiseuille-like and Hartman-like regimes and relies on magnetic flux expulsion. Based on this observation, new predictions are made for the occurrence of this stalling instability.