International Journal of Electrical Power System and Technology

Power is becoming increasingly vital in the current technological revolution, as the need for power in industrial and commercial loads rises. So, we must investigate the causes of control failure and advance the framework. Due to a range of electrical and power electronics demands, the power system loses efficiency, resulting in a lagging power factor, which imposes significant fines on consumers by the electricity board and pollutes the system environment. As a result, we must strengthen the power factor of the electrical system. It can be enhanced by utilizing an APFC system, which can maintain a steady high-power factor closer to unity. Because most industrial loads are inductive in nature, they use reactive power, affecting generation. Typically, less emphasis is placed on the potential negative impacts. One of the most important criteria for power system operation and design is power quality. An electrical power system that has a high uptake of commercial loads with a lot of inductances can benefit greatly from having a power factor that is close to unity as a reliable indicator of overall power quality. An electrical system with a low power factor is often less efficient, and it may also be less cost-effective for system operators and end users.

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