Free Expert Guides on Power Systems, Circuit Design & Electrical Troubleshooting

Recently, the world’s first 500kV/90kA cost-effective high-voltage AC current limiter, jointly led by Guangzhou Power Supply Bureau of Guangdong Power Grid and developed by China High-Voltage AC Current Limiter Manufacturer, successfully completed artificial short-circuit tests and has been officially connected to the grid for trial operation on the Shunguang Jia Line at the 500kV Guangnan Substation. As a key project under China’s National Key R&D Program, the successful completion of the “

1.Common Faults and Diagnostic Measures1.1 Transformer Oil Leakage1.1.1 Oil Leakage from Tank Weld SeamsFor oil leakage at flat joints, direct welding is applicable. For leakage at corners or joints reinforced with stiffeners, the exact leakage point is often difficult to locate, and re-leakage may occur after welding due to internal stress. For such cases, repair welding with an added iron plate is recommended: for two-surface joints, the iron plate can be cut into a spindle shape for welding;

Currently, the company operates two electric arc furnace (EAF) transformers. The secondary voltage ranges from 121 V to 260 V, with a rated current of 504 A / 12,213 A. The high-voltage side has a total of eight tap positions, utilizing motor-driven off-circuit voltage regulation. The equipment is equipped with a reactor of corresponding capacity, connected in series to designated taps on the high-voltage side. These transformers have been in operation for over 20 years. Throughout this period,

1 Failure Mechanisms of Power CapacitorsA power capacitor primarily consists of a housing, capacitor core, insulating medium, and terminal structure. The housing is typically made of thin steel or stainless steel, with bushings welded to the cover. The capacitor core is wound from polypropylene film and aluminum foil (electrodes), and the interior of the housing is filled with liquid dielectric for insulation and heat dissipation.As a fully sealed device, common failure types of power capacitors

1 Overview of Reactive Power Compensation Technology1.1 Role of Reactive Power Compensation TechnologyReactive power compensation technology is one of the widely used techniques in power systems and electrical grids. It is primarily employed to improve power factor, reduce line losses, enhance power quality, and increase the transmission capacity and stability of the grid. This ensures that power equipment operates in a more stable and reliable environment, while also boosting the grid&rsquo

Operation and Maintenance Guidelines for Power CapacitorsPower capacitors are static reactive power compensation devices primarily used to supply reactive power to electrical systems and improve power factor. By implementing local reactive power compensation, they reduce transmission line current, minimize line power losses and voltage drops, and contribute significantly to improved power quality and higher equipment utilization.The following outlines key aspects of power capacitor operation and

Performance Degradation Characteristics and Life Prediction of Power Capacitors under High-Temperature ConditionsWith the continuous expansion of power systems and increasing load demands, the operating environment for electrical equipment has become increasingly complex. Rising ambient temperature has emerged as a key factor affecting the reliable operation of power capacitors. As critical components in power transmission and distribution systems, the performance degradation of power capacitors

Discussion on Operation, Maintenance, and Fault Management of Power CapacitorsPower capacitors play a vital role in power systems by improving voltage quality and enhancing operational efficiency and economic performance. However, during long-term operation, they may experience various failures that affect their performance and reliability, potentially threatening the safety and stability of the entire system. Therefore, in-depth study of their operation, maintenance, and fault handling is essen

Power capacitors are a crucial component in power systems, primarily used to provide reactive power compensation to improve the system's power factor and stabilize voltage, protecting equipment from voltage fluctuations. However, during actual use, power capacitors often face oil leakage issues, which not only degrade their performance but can also pollute the environment and even cause fires or other safety accidents. This significantly affects the lifespan of the equipment and poses a serious

1. Current Status and Shortcomings of Online MonitorsCurrently, online monitors are the most commonly used tools for surge arrester monitoring. While they can detect potential defects, they have significant limitations: manual on - site data recording is required, precluding real - time monitoring; and post - collection data analysis adds to operational complexity. IoT - based intelligent monitoring overcomes these issues—collected data is uploaded via the IoT to processing platforms,