International Journal of Chemical and Molecular Engineering

Open Access  Subscription or Fee Access

The paper presents the carried out theoretical description of the process of vibro - turbulization, which appears in the process of action vibration on the water, permitted to determine the basic physical parameters, under which this process begins: the vibration frequency, the time of the beginning of process and the volume of abovewater’s air area that participate in the intensive, turbulent mixing of manyphase systems.The obtained results permitted to calculate the regimes of the process and to use them for any manyphase system in each specific case. The conducted experiments completely proved the theoretically calculated regime parameters of the process of vibro - turbulization and permitted to make a conclusion about the prospect of the use of this process for the intensive mixing of media’s components with different densities.Obtained experimental data testify the fact that the process of vibroturbulization significantly influences on the results of floatation and can be effective used for the intensification of the floatation method of the minerals processing.

Keywords: Vibration; Vibro - turbulization; Manyphase systems; Mixing; Mineral processing.

. Tatevosyan R.A. The theoretical bases of the chemical technology. t.11, 1, 153-155, 1977

Korneyev N.N. The special feature of the vibration mixing of multicomponent media. Vestnik AGPU, 2 (31), 2006

Pilinevich L.P. A study of the process of the separation of solid particles by the sizes, the form and the mass under the action of vibration. Reports BGUIR, №6 (92), 2015

Gromakovskiy D.G., Byrakov A.P., Kareva N.A. The development of low-frequency cavitation devices for the washing of the surfaces of the machine parts and instruments. Proceedings of Samara scientific center of the Russian Academy of Sciences, Vol. 13, 1 (3), 2011

Shoikhedbrod M.P. Behavior of water under the influence of vibration and electric field.

Lambert Academic Publishing, Toronto, 2017.

Bleich H.H. Effect of vibration on the motion of small gas bubbles in a liquid. Jet propulsion, Vol. 26, 11, 1956, 958-963