Power system harmonics mitigation techniques are employed to reduce or mitigate the effects of harmonic distortion in electrical systems. Harmonics are unwanted, higher-frequency components of the voltage and current waveforms that can result from the operation of non-linear loads, such as power electronics devices, and can lead to various issues such as increased losses, reduced power quality, and interference with other equipment. Here's how a harmonics mitigation technique works to reduce harmonic distortion:
Identifying Harmonic Sources: Before applying mitigation techniques, it's important to identify the sources of harmonics in the power system. These sources could be variable frequency drives, rectifiers, inverters, arc furnaces, etc.
Passive Filters: One common approach to harmonic mitigation is the use of passive filters. These are circuits that are designed to absorb or attenuate specific harmonic frequencies. Passive filters are typically composed of series inductors and shunt capacitors or resistors. These components create a resonance at the harmonic frequency, diverting the harmonic current away from the system.
Active Filters: Active filters are more advanced solutions that use power electronics to actively generate harmonic currents of opposite phase to cancel out the harmonics produced by non-linear loads. They monitor the harmonic currents and generate corresponding current components to counteract the unwanted harmonics.
Harmonic Tuned Filters: These filters are designed to target specific harmonic frequencies. They consist of a combination of passive and active elements that can be adjusted to address specific harmonic issues.
Multi-Pulse Converters: Multi-pulse converters, such as 12-pulse and 24-pulse configurations, are used to reduce harmonics by using multiple rectifiers or inverters with phase shifts. This approach effectively spreads out the harmonic spectrum, reducing the amplitude of individual harmonics.
Phase-Shifting Transformers: Phase-shifting transformers are used to change the phase relationship between different parts of the power system. This can help in canceling out certain harmonics or redistributing them across the system.
Load Isolation: Isolating sensitive equipment from non-linear loads can also help reduce harmonic distortion's impact on the overall system.
Harmonic Mitigating Transformers: These transformers are designed with specific winding configurations that reduce the propagation of harmonics to the rest of the system.
PWM Techniques: In some cases, using advanced pulse-width modulation (PWM) techniques in power converters can help reduce harmonics by shaping the output waveform.
Compliance with Standards: Ensuring that equipment and systems meet established harmonic distortion limits and power quality standards can also contribute to overall harmonic mitigation.
It's important to note that each technique has its advantages and limitations, and the choice of mitigation technique depends on the specific harmonic distortion issues present in the power system, as well as economic and technical considerations. In many cases, a combination of techniques may be employed to achieve effective harmonic distortion reduction.