Microgrids are designed to operate at a fundamental frequency (50 or 60 Hz). However, certain types of loads generate voltage and/or current harmonics that increase power system heat losses. These harmonic losses reduce system efficiency, cause apparatus overheating and increase power costs. Besides that, the Distributed Generation (DG) is expected to play an important role in future power systems...
YTPQC-AHF Active Harmonic Filter Based on the broad knowledge and experience in terms of solutions and applications in power quality, YT ELECTRIC has developed YTPQC-AHF Active Harmonic Filters. YTPQC Active Harmonic Filter is an active power correction solution to help stabilize electrical networks by providing harmonic mitigation and power factor correction, and load balancing. It is speci...
The reactive power consumed by the transformer is generally about 10% to 15% of its rated capacity, and its no-load reactive power is about 1/3 of the full load. Therefore, in order to improve power factor (PF) of the power system, the transformer should not operate at no-load or in a long-term low-load operation state. Vigorously improving the power factor of transformers, reducing line losses, a...
Ultra-high harmonic detection in distribution networks relies on advanced technologies designed to measure and analyze harmonics beyond the conventional limits. Here are some key technologies used for ultra-high harmonic detection: Wideband Spectrum Analysis: This technology involves using wideband spectrum analyzers capable of analyzing frequencies well beyond the conventional range to detect and...
Power quality management in distributed photovoltaic (PV) refers to the measures and strategies employed to ensure the reliable and efficient operation of PV systems while maintaining the quality of electrical power supplied to the grid. Here are some key aspects of power quality management in distributed photovoltaic: Voltage Regulation: PV systems can introduce voltage fluctuations due to the in...
Power electronics devices are widely used in various applications including renewable energy systems, electric vehicles, motor drives, and power supply systems. While power electronics devices provide flexibility and control, they can also introduce power quality problems. Some of the common power quality problems caused by power electronics devices are: Harmonic Distortion: Power electronics devi...
The relationship between capacitors and harmonics is very close, especially in power systems. The use of capacitors can affect the generation and propagation of harmonics, and are also easily affected by harmonics, leading to reduced performance or damage. Harmonic amplification In the power system, capacitors have a lower impedance to harmonics, so harmonic currents tend to flow through th...
The peak and effective value of harmonics When discussing the peak of harmonic currents, it's essential to first understand the fundamentals of harmonics. The effective value (RMS value) of a harmonic describes the average power of the harmonic component over one period, reflecting the equivalent extent to which the harmonic causes heating effects in the system. However, the peak of a harmonic (th...