• Energy Research

The present article is to select the key parameters of a shunt active filter in the conditions of centralized and distributed power supply systems. The main equations which reflect the dependences of shunt active filter key parameters with network and load characteristics are presented. A mathematical model of a generalized industrial electric network with a variable value of internal impedance with a nonlinear load and shunt active filter was developed by means of the Matlab Simulink software environment. During simulation the generalized dependences of shunt active filter key parameters from the value of internal network impedance were obtained which allow to select and properly tune the mentioned filter key parameters according to the power supply mode defined by the type of a source: centralized or distributed. The obtained results also allow to maintain the required level of power quality and electromagnetic compatibility by means of a shunt active filter during emergency power supply modes when switching from a centralized to a distributed power supply source.

The urgency and necessity of improving power quality and electromagnetic compatibility of electrical equipment is proved. The structure of the hybrid system correction based on parallel connection of active and passive filters is presented. The developed mathematical and simulation model of converters with a common DC link correction system and electric drive is developed. The results of mathematical modeling prove the efficiency of harmonic compensation harmonic components. The results demonstrate the efficiency of hybrid correction systems in dynamic modes of electric drive operation.