Using Medium Voltage SVG in the metallurgical industry is not an "option," but a "necessity" concerning economic efficiency, production stability, and social responsibility. We can use a simple analogy to understand this: The power grid of a metallurgical plant is like a main water pipe supplying all equipment. High-power impact loads like electric arc furnaces and rolling mills are like gian...
The metallurgical industry is a typical "severely affected area for power quality," and it is also where SVGs can deliver the most significant benefits. My explanation will be divided into two main parts: Governance Effects and Key Considerations. Part 1: The Governance Effects of Medium-High Voltage SVG in the Metallurgical Industry Production processes such as Electric Arc ...
Medium-Voltage SVG: A Core Device Empowering Power Quality Optimization in Modern Power Grids With the large-scale grid connection of new energy power generation, the surge in industrial impact loads, and the continuous improvement of users' requirements for power quality, medium-voltage power grids are facing many challenges such as reactive power imbalance, voltage fluctuation, and harmonic poll...
The Principle of High-Voltage Passive Filtering In high-voltage power systems, the widespread application of non-linear loads such as electric arc furnaces, frequency converters, and rectifiers generates a large amount of harmonic currents. These harmonics not only cause power grid voltage distortion and increase line losses but also may interfere with the operation of precision equipment and dama...
STATCOM : The Core Solution for Power Factor Correction Large-scale solar systems are rapidly integrating into medium and high voltage power grids worldwide. Power factor correction has become a critical requirement for these solar projects. Poor power factor can lead to grid penalties, reduced energy efficiency, and unstable operation. This is where medium and high voltage STATCOM, also kn...
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