It requires simple train for desilter users to make use of desilter and 518 centrifuge in a proper manner since they need to understand how the rotation of the pump impeller works in favor of the rising vortex in the case of randomly formed surface that is actually based on the frequency of the desilter and 518 centrifuge flow fluctuation and oil drilling liquid level in the chamber. Due to this reason, it is not hard to notice that at the inlet section of the desilter and 518 centrifuge pipe the rotation of the desilter and 518 centrifuge impeller is decreasing and the permanent vortex motion mainly determine the characteristics of the chamber so it becomes somewhat impossible to analyze the possibilities of desilter and 518 centrifuge failures whose number is so small.
At the same time, in terms of reducing the frequency of the vortex so as to avoid desilter and 518 centrifuge prime at low water level, professionals in the field have come up with an original method that is actually proposed by studying the influence of a rotating device in the oil drilling practice, or more specifically, on the vortex motion. What is more, a lot of research has been conducted concerning desilter and 518 centrifuge and their diameters of the cylinders with the help of the same testing installation and the same working conditions so as to assess the flow pattern.
Therefore, oil drilling operators can easily observe that the desilter and 518 centrifuge are rotating due to pump effect even before the surface vortex is present and that when the desilter and 518 centrifuge vortex is arising due to the motion of the device the vortex, the drilling pattern will be dramatically changed in comparison with the initial conditions at low flow rates. This is especially true when the vortex is extracted from the pipe and the high flow rates of the desilter and 518 centrifuge can be modified according to the specific positions of the suction pipe and the lowering of the rotating energy so that for each pumping regime in the chamber, more than ten percent of the liquids is available till permanent vortices are present.
On the other hand, a method for mitigating the effect of desilter and 518 centrifuge vortex motion can be utilized to decrease the risk of prime loss. To conclude, the experimental investigation of desilter and 518 centrifuges has been carried out to study its characteristics in mode operation and by using the experimental results, new correlations have been developed in the field of desilter and 518 centrifuges with high working efficiency and specific speed in the action mode in oil drilling practices.