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

1. What is accident handling? What are the common types of operations used in accident handling?Answer: Accident handling refers to a series of operational actions taken in response to an emergency that endangers personal, power grid, or equipment safety, or when a power grid or equipment accident occurs. The goal is to quickly rescue personnel, isolate faulty equipment, adjust operating modes, and restore normal operation as soon as possible.Common operation types include: test energizing, forc

An electrical substation is a critical component of the power transmission and distribution system. Its primary function is to receive electricity from high-voltage transmission lines and deliver it at lower voltages suitable for end users, such as homes, businesses, and other consumers. The operation of a substation can be summarized as follows:Step-down Transformer: Electricity generated at power plants is transmitted over long distances at high voltages to reduce energy losses. Upon reaching

Substation Integrated Automation SystemThe Substation Integrated Automation System is a comprehensive automation solution that leverages advanced technologies—including computer science, modern electronics, communication systems, and information processing—to reorganize and optimize the functions of substation secondary equipment. This includes relay protection, control, measurement, signaling, fault recording, automatic devices, and telecontrol systems. The system enables in

Early 110 kV substations typically adopted the "internal bus connection" configuration on the power supply side, where the power source commonly used the "internal bridge connection" method. This was often observed in certain 220 kV substations supplying 110 kV buses from different transformers in a "same-direction dual-power" arrangement. This setup involved two transformers, with the 10 kV side using a single busbar with sectionalized connection. Advantages included simple wiring, convenient o

As a key power distribution equipment, the safe operation of a compact substation relies on reliable grounding measures. People often wonder: Why is the grounding resistance of a compact substation generally required to be no more than 4Ω? Behind this value, there are rigorous technical bases and application scenario restrictions. In fact, the requirement of ≤4Ω is not mandatory in all cases. It mainly applies to scenarios where the high - voltage system adopts "ungrou

In recent years, driven by policies and the enabling environment, the domestic new energy industry has achieved rapid development. A large number of photovoltaic (PV) projects have been introduced into the power market, and high-altitude PV projects are among them. If prefabricated cabin substations can be utilized scientifically and rationally, high-altitude PV projects can feature short construction cycles, quick commissioning, and relatively low investment levels. This is of great significanc

The economic development demands higher efficiency in substation construction, giving rise to prefabricated cabin substation technology. With modular design, equipment wiring, commissioning, and prefabrication are completed in factories, requiring only "building-block" assembly on-site. Take the 10kV prefabricated high-voltage room as an example: equipment and cabin are installed in the factory, with on-site work limited to busbar and cabin assembly. The main transformer incoming line connects v

With the development of the national economy and society, the requirements for the quality and craftsmanship of power grid projects have become increasingly stringent. The need to improve the construction progress and quality of substations has created opportunities for the promotion of prefabricated cabin - type intelligent substations. The traditional on - site wiring and commissioning of secondary substation equipment involve a large amount of work. Moreover, on - site construction has to wai

Against the backdrop of profound changes in the global energy landscape and the booming development of the new energy industry, the construction mode of traditional substations struggles to meet the rapid deployment needs of new energy projects. The modular intelligent prefabricated cabin substation, leveraging its innovative advantages, has become a key direction for optimizing the new energy power system. In - depth exploration of its technical principles, industry adaptability, and applicatio

1 Implementation Strategies for the Scheme1.1 Deepen Survey and ResearchBefore constructing prefabricated cabin - type substations, it is necessary to conduct detailed surveys of local working conditions, clarify the construction scale and objectives, evaluate existing power facilities, plan projects, make up for infrastructure shortcomings, and adjust the construction rhythm. Meanwhile, control costs to avoid project suspension.1.2 Strengthen Structural ConstructionDuring promotion, multi - dim