Calculation of energy parameters of submerged vibrating confuser of an electromagnetic vibrator

The relevance of the discussed issue is caused by the necessity to develop the energy/efficient vibrating equipment for oil treatment to transportation. The vibration techniques can significantly improve the performance of oil equipment in its desalting, dewatering, viscosity reduction and hysteretic heating. The energy efficiency of application of vibrating processing consists in the fact that the using of energy/intensive thermal methods of oil processing is excluded. There are no theoretical and engineering methods of calculation of vibrating submerged cofusers in a continuous liquid medium. The vibrating confuser submerged in a continuous body is a nonlinear oscillatory system, therefore it is difficult to calculate the operating regimes and energetic characteristics of such systems. The main aim of the study is to develop the original engineering method of calculating the energetic parameters of submerged vibrating confuser working close to the stationary surface of motor part of electromagnetic vibrator. Research methods. The main method of investigation is a mathematical modeling of transient processes of a nonlinear vibrating system of submerged vibrating confuser with determination of the next working parameters: active resistance head, vibrational amplitude of confuser, mechanical vibrational power of oscillating system. Results. The authors found out the mathematical model of calculation of the submerged vibrating confuser operation in a starting duty with a transient to a steady state mode. The authors calculated the transient phenomenon of running the oscillating system of vibrational confuser: amplitude of oscillation, active resistance of resistance head and power of the system. The authors analyzed the changes in operating parameters of the submerged confuser depending on the amount of current of the electromagnetic vibrator. The technique introduced allows calculating and designing the flooded confuser electromagnetic vibrator, its capacity and performance. The issue is intended for developers of oil equipment.