Abstract:
The work is devoted to the study of the dynamics of the formation of
bubbles in a gas–liquid system taking into account the potential difference.
The electrical conductivity of the fluid is determined depending on the
concentration of the electrolyte and, accordingly, the electrostatic field that
occurs when the fluid flows. The effect of the electrostatic field on the bubble
formation dynamics has shown that the radius of the gas bubbles and the
dynamics of its expansion, formed by the pressure difference, can be regulated
by the potential difference parameter.
Depending on the electrolytic concentration,
the electric conductivity of the liquid and, accordingly, the electrostatic field
arising from friction in fluid are determined. The effect of the electrostatic
field on the dynamics of the bubble formation has shown that the radius of
gas bubbles and expansion dynamics formed by the pressure drop can be
regulated by the potential difference parameter. It is presented that one of the
main factors affecting the flow of two-phase fluids is the nature of the liquid
phase and the concentration of electrolyte added. The results of regulation of
the bubble formation dynamics in the gas–liquid system via the electrostatic
field and a number of physical parameters can be applied in the oil and gas
industry, chemical processes, biomechanics.
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