Abstract
Inverse problem of the two - phase liquid flow separation on components under magnetic field action is firstly resolved at given law of the moving boundary alteration. Automodel solution is established, which may be approximated till various areas of dimensionless variable O. It is found the relationship between the phase radius r o and magnetic properties of the liquid involved. The dependence of velocity function on rheological parameters of the liquid is estimated. The changes of the liquid flow separation due to effect of the alternating magnetic field are shown. It is established, what liquids should be combined in total flow in order to acquire the best effect of separation.