AN OPTIMIZED POWER FACTOR CORRECTION FRAMEWORK FOR INDUSTRIAL MOTOR DRIVES

Abstract

The research suggests an optimal power factor correction framework for industrial motor drives that will improve energy efficiency, reduce reactive power losses, and adhere to contemporary power quality standards. By integrating intelligent compensation methods, such as active and passive filtering, with advanced management algorithms, the proposed system dynamically modifies the power factor in response to changing load conditions. Real-time monitoring and adaptive algorithms are integrated into the system, which enables it to effectively reduce harmonics and improve voltage stability, thereby enhancing overall performance. The impact of the proposed strategy on the reduction of energy consumption and operational expenses in industrial environments is also evaluated in this study. The enhanced framework is a viable option for the upcoming generation of industrial motor drive applications, as simulation and analytical results suggest that it maintains system reliability and efficiency while achieving a substantial power factor of approximately unity.