Harmonics in AC power systems are undesirable frequency components that result from nonlinear loads, such as electronic equipment, power electronics devices, and other devices that do not draw sinusoidal currents. These harmonics can cause a variety of issues in power systems, including increased losses, reduced power quality, and interference with other sensitive equipment. To mitigate harmonics, a combination of filters and active devices can be employed.
Passive Filters:
Passive filters are designed to attenuate specific harmonics by providing impedance to those frequencies. They consist of passive components like inductors, capacitors, and resistors. The design of a passive filter depends on the specific harmonic frequencies that need to be mitigated. Passive filters can be classified into three types:
Low-Pass Filters: These attenuate higher order harmonics by providing a high impedance at those frequencies.
High-Pass Filters: These attenuate lower order harmonics and allow higher frequency components to pass through.
Band-Pass Filters: These are designed to mitigate a specific range of harmonics while allowing other frequencies to pass.
Active Filters:
Active filters use power electronics devices to generate currents that are injected into the power system to cancel out the undesired harmonic currents. They are capable of dynamically adapting to varying harmonic conditions and can provide better performance compared to passive filters. Active filters are often used to mitigate higher order harmonics that are difficult to address with passive solutions. They can be controlled to generate harmonic currents with opposite phases to cancel out the harmonic components produced by nonlinear loads.
Static Var Compensators (SVCs) and STATCOMs:
SVCs and STATCOMs are advanced power electronics devices that can control reactive power and voltage in power systems. They can also be utilized to mitigate harmonics by injecting or absorbing harmonic currents as needed to maintain the desired power quality. These devices can be programmed to respond to specific harmonic conditions and provide a more dynamic and precise solution for harmonics mitigation.
Active Harmonic Filters:
These are dedicated devices designed specifically for harmonic mitigation. They continuously monitor the system for harmonic distortions and generate compensating currents to mitigate those harmonics. Active harmonic filters are capable of addressing a wide range of harmonic frequencies and can be particularly effective in complex industrial environments with multiple nonlinear loads.
Hybrid Solutions:
In some cases, a combination of passive filters and active devices can be used to achieve comprehensive harmonic mitigation. Passive filters can be designed to target specific harmonics, while active devices provide dynamic compensation for a broader range of harmonic issues.
It's important to note that the selection of harmonics mitigation techniques depends on the specific characteristics of the power system, the types of nonlinear loads present, and the required level of harmonic reduction. A thorough analysis of the system and consultation with power quality experts is usually necessary to determine the most effective mitigation strategy.