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

In recent years, the accident rate of H59 distribution transformers has shown an upward trend. This article analyzes the causes of failures in H59 distribution transformers and proposes a series of preventive measures to ensure their normal operation and provide effective assurance for power supply.H59 distribution transformers play a vital role in power systems. With the continuous expansion of power system scale and the increasing single-unit capacity of transformers, any transformer failure n

The windings and core of a transformer are the primary components responsible for transmitting and transforming electromagnetic energy. Ensuring their reliable operation is a major concern. Statistical data shows that core-related issues account for the third-highest cause of transformer failures. Manufacturers have paid increasing attention to core defects and have implemented technical improvements regarding reliable core grounding, core ground monitoring, and ensuring single-point grounding.

Voltage regulators (szsger.com) play a crucial role in modern industry, providing strong support for the stable operation of various equipment. However, during use, voltage regulators may encounter various problems that prevent equipment from operating normally. This not only affects production efficiency but also increases operational costs. This article will help you gain an in-depth understanding of common voltage regulator issues and provide practical solutions to ensure the stable operation

1.Introduction1.1 Basic Function and Background of GCBThe Generator Circuit Breaker (GCB), as the critical node connecting the generator to the step-up transformer, is responsible for interrupting current under both normal and fault conditions. Unlike conventional substation circuit breakers, the GCB directly withstands the massive short-circuit current from the generator, with rated short-circuit breaking currents reaching hundreds of kiloamperes. In large generating units, the reliable operati

Gas accumulation: Free gas is present in the transformer oil. Response: The gas in the liquid rises and accumulates in the Buchholz relay, compressing the transformer oil. As the liquid level drops, the float also descends. The movement of the float drives a switch element (magnetic contact), thereby triggering an alarm signal. However, the float is not affected, because a certain amount of gas can flow through the pipe into the storage chamber.Fault: Due to leakage causing loss of transformer o

Brand Core Business Tavrida Electric Specializes in reclosers and other transmission & distribution equipment, with a strong focus on the R&D and manufacturing of high-voltage switching devices. Its Tavrida OSM recloser stands out in the industry, delivering reliable distribution solutions for power systems. NOJA Power Focuses on intelligent reclosers and related distribution equipment. The company’s advanced NOJA OSM recloser technology targets smart grid applica

1.Blocking Principle of Ultra-High-Voltage Converter Valves1.1 Working Principle of Converter ValvesUltra-high-voltage (UHV) converter valves typically employ thyristor valves or insulated-gate bipolar transistor (IGBT) valves to convert alternating current (AC) to direct current (DC) and vice versa. Taking the thyristor valve as an example, it consists of multiple thyristors connected in series and parallel. By controlling the triggering (turn-on) and turn-off of thyristors, the valve regulates

1.Description of the Fault PhenomenonThe disconnector fault in a 550 kV GIS equipment occurred at 13:25 on August 15, 2024, while the equipment was operating under full load with a load current of 2500 A. At the moment of failure, the associated protection devices acted promptly, tripping the corresponding circuit breaker and isolating the faulty line. System operating parameters changed significantly: the line current dropped abruptly from 2500 A to 0 A, and the bus voltage instantly decreased

Common Faults of High-Voltage Circuit Breakers and Mechanism Pressure LossCommon faults of high-voltage circuit breakers themselves include: failure to close, failure to trip, false closing, false tripping, three-phase asynchronism (contacts not closing or opening simultaneously), damage to the operating mechanism or pressure drop, oil spraying or explosion due to insufficient interrupting capacity, and phase-selective circuit breakers failing to operate according to the commanded phase."Circuit

1. Significance of Enhancing Fault Handling for 220 kV Outgoing Circuit Breakers and Disconnectors220 kV transmission lines are highly efficient and energy-saving high-voltage power transmission systems that significantly benefit daily life. A fault in a circuit breaker can severely compromise the safety and reliability of the entire power grid. As critical components of high-voltage transmission systems, circuit breakers and disconnectors play essential roles in power flow control and fault pro