Abstract
The purpose of this article is to analyze the energy savings of drive technology for permanent magnet in pumping systems applications. Studied the system structure and working principle of permanent magnetic actuator, according to the production parameters of pumping system collected before and after installation, drew the superimposed slip torque characteristic curve for the motor, analyzed the movement of rod load and the crank shaft, and to study the changes for rod power and active power of pumping system. did data comparison and analysis, showed that the magnet actuator improves the dynamic performance of pumping system, decrease the fluctuations of load and torque and reduced installed power of drag motor, theoretical analysis matched experimental results, confirmed the drive technology for permanent magnet in pumping system applications have a good energy saving effect.
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