The commonly used reactive power compensation methods at present

Reactive power compensation technology is crucial for modern electrical systems. With an increasing number of nonlinear loads flooding into the power grid and the extensive application of power electronics technology, a large amount of harmonics have been generated. We urgently need an effective means to solve the problems of harmonics and reactive power.
The Reactive power compensation produect SVG developed by Noker Electric is a very good way to compensate reactive power.It helps maintain power quality and system efficiency. This technology manages the flow of reactive power in electrical networks. It reduces energy losses and improves voltage stability. The significance of this technology extends beyond technical benefits. It leads to cost savings, better equipment performance, and increased system reliability.
In AC systems, due to inductive and capacitive loads cause a phase shift between voltage and current. It results from the phase difference between voltage and current. It does not contribute to real power transfer but is is essential to maintain the magnetic and electric fields in AC equipment.It is essential to understand these concepts for power system optimization. Poor power factor causes increased current flow. This results in higher losses and voltage drops. Effencial reactive power compensation way helps to address these issues. It improves system efficiency and reduces operating costs.
The commonly used reactive power compensation methods at present are as follows:
1. Static Var Generaotor
Static var generator use advanced power electronics for reactive power control. It offers instant response to system changes, ideal for fluctuating loads. These devices provide smooth, step-less compensation through sophisticated control. While offering excellent dynamic response.
2. Capacitor Banks
Capacitor banks are traditional reactive power compensation devices. Capacitor banks offer cost-effective solutions for power factor improvement. These systems come in fixed or switched configurations for varying loads. The simple design of this compensator in power system ensures reliability and minimal maintenance. While lacking dynamic response, they excel in stable load applications and remain popular in industrial settings.
3. SVGs (Static VAR Generator Systems)
SVGs combine static compensator and traditional method benefits. It provides rapid response and continuous regulation for optimal control. The compensation systems offer high reliability in demanding environments. This hybrid compensation method has been widely applied in project renovations.