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The oil-immersed iron core reactor, which serves as a reactive power compensation device for the power system, limits fault current and raises the system’s power factor .The primary portion of the electrical force and distribution system in large power plants, nuclear power plants, and hydropower stations uses extra-voltage oil-immersed reactors.
This product line includes earthing reactors, arc extinction windings, shunt reactors, flat wave reactors, and more. These are this product’s characteristics: To compute and evaluate electromagnetism, heat, and mechanism, it uses specialized software.
It uses a flat winding and a transposed conductor, increasing the electric intensity of the winding while simultaneously reducing eddy current loss. By using molding insulators, the insulating structure’s reliability is increased. The core disc is the kind with a gas crack that is stressed by a pole running through the center, ensuring the solidity of the core.
Implementing an all-around magnet leakage shield technology to reduce heat locally. The transformer’s active component and tank are cast into place, ensuring that they won’t move during transit and that the operation will be reliable.
Global oil immersed reactor market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Chintz is appropriate for power plants and substations, which have parallel connections to the power grid. The main purposes of this device are to compensate for capacitor current, lessen transmission loss, suppress lift and capacitive operation of light loads, enhance system stability, and stop the generation of abnormal voltage.
Standards: IEC 60076-6 Parameters: 50Hz or 60Hz, 550kV maximum voltage, 250MVA maximum capacity Features: Strong dielectric properties; Strong linearity, Minimal temperature increase and loss; Low loss and low frequency vibration; suitable for power plant and substation, which are connected in parallel in the power system.
The main purposes of this device are to compensate for capacitor current, lessen transmission loss, suppress lift and capacitive operation of light loads, enhance system stability, and stop the generation of abnormal voltage.
