Power Quality Problems With the in-depth application of power electronic technology, the automation of the petrochemical industry has been continuously improved, and the nature of the load has also undergone qualitative changes. The increase of nonlinear and impact loads has brought about voltage flicker, three-phase imbalance, and excessive reactive power consumption. , harmonics and a series of ...
Over its 100-year history, welding has become one of the most essential technical skills in manufacturing and fabrication. The process of using high-temperature, electrical-powered heat to fuse two pieces of metal or synthetic material has been incorporated throughout the industry in an increasingly wide variety of applications that rely on a range of tools and techniques. But Electrical welding m...
The 31st Shanghai International Power Equipment and Technology Exhibition Recently, the focus of attention in the power industry has gathered at a highly anticipated event - the 2023EP Power Exhibition. The exhibition brings together leading enterprises, experts, and technology innovators in the industry, aiming to share the latest power system solutions, showcase advanced equipment and tec...
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...
What are the power quality problems of broadband oscillation? Broadband oscillations in power systems refer to low-frequency oscillations that occur over a wide range of frequencies. These oscillations can have a significant impact on system stability and can lead to voltage instability, power quality issues, and even blackouts if not properly managed. Here are some of the characteristics of broad...
Introduction This blog compares harmonic mitigation techniques across various applications in real time. It examines different aspects of active and passive series and shunt filters, focusing on reducing harmonic loading in drive systems. It discusses the pros and cons of parallel and series approaches, as well as active and passive solutions, supplemented by practical results from several case st...
Voltage Unbalance: Causes, Impacts, and Mitigation Strategies This state of imbalance not only affects power quality but can also damage equipment and reduce energy efficiency. For example, using SPC (Static Phase Converter) for dynamic adjustment within the distribution station can effectively improve this situation; at the same time, users should also pay attention to reasonable load configurati...