SFTBBC-10 high voltage reactive power compensation device

Product Overview

One of the main features of the SFTBBC-10 is its ability to operate in a wide range of environmental conditions. The device is designed to operate at altitudes up to 1000 meters and withstand ambient temperatures ranging from -25°C to +55°C. It can also operate in environments with a relative humidity of up to 85%. However, it should be noted that the operating site must be away from explosive media and the surrounding environment must not contain corrosive gases or conductive substances, as these substances may damage the integrity of the equipment's insulation.

Designed to handle steady-state overvoltage conditions, the SFTBBC-10 is capable of continuous operation at 1.1 times the rated voltage. This high resilience ensures the device maintains performance even in the face of voltage fluctuations. In addition, the device can withstand overcurrent conditions with an RMS value not exceeding 1.3 times the rated current of the capacitor bank. This rugged design not only increases the reliability of the device, but also helps improve the stability of the power system it serves.

Application

◆Power system: In power transmission and distribution networks, the use of high-voltage reactive power compensation devices can improve the power factor of the system, reduce line losses, and improve power quality.

◆Industrial enterprises: Large industrial enterprises such as steel, chemical, cement and other industries usually require a lot of electricity. The use of reactive power compensation devices can reduce electricity bills and improve the operating efficiency of equipment.

◆Substation: In substations, installing reactive power compensation devices can improve voltage stability and enhance the regulation capability of the system.

◆Wind power generation and solar power generation: In renewable energy power generation systems, the use of reactive power compensation devices can balance the reactive power between power generation and load and improve the stability of the system.

◆Large commercial buildings: In large commercial buildings, the use of reactive power compensation devices can optimize power usage and reduce electricity bills.

◆Rail transit: In rail transit systems such as subways and light rails, the use of reactive power compensation devices can improve power supply quality and ensure the normal operation of trains.

◆Data center: Data centers have high requirements on power quality. The use of reactive power compensation devices can improve the reliability and stability of power supply.