Xu Shuang Ankerui Electric Co., Ltd., Shanghai Jiading 201801 I. Introduction In recent years, with the continuous improvement of domestic power supply quality requirements, at the same time, the power supply department has increased the use of reactive power compensation devices in order to increase the efficiency of existing power transmission and transformation equipment, save energy, and increase economic efficiency. Static reactive power compensation devices emerge one after another. As the traditional pillar industry of China’s national economy and the important civil production industry, the textile industry is also an industry with obvious international competitive advantages. It plays an important role in prospering markets, expanding exports, absorbing employment, increasing farmers’ income, and promoting regional economic development. . II: Reference Case In the textile industry, a large number of electric motors are used. In the generation of a rotating magnetic field, the electric motor needs to draw reactive power from the electric grid, so the power factor is low, which increases the losses of the line and the power grid. The rotor and stator currents of the motor will increase, and the rotor and stator losses of the motor will increase significantly. The heating of the motor will intensify and cause overheating. In severe cases, the motor will be burned. Textile industry motors are widely used in textile mills. The motor power is generally 220 volts and 0.55 KW. The reactive power needs compensation 30-40 KVAR. The harm of inductive energy generated by the motor to the power system not only aggravates energy consumption, reduces the efficiency of the use of electrical equipment, shortens the electrical service life of the electrical equipment, but also has a great impact on the quality of the electrical grid. Acrel provides an ARC power factor controller to a textile industry to solve the reactive power compensation problem. Third, the choice of ARC power factor controller Ankerui's ARC power factor controller strictly complies with the requirements specified in professional standards such as DL/T597 "Low-Voltage Reactive Power Compensation Controller Ordering Specifications" and JB/T9663 "Low-Voltage Reactive Power Automatic Compensation Controller" and other professional standards. According to the specific compensation requirements and load characteristics of the textile industry. In general, the controller can be selected from the following aspects: Table 1 Product Application model Load requirements Compensation method Switch Capacitor Compensation plan ARC-6/J ARC-8/J ARC-10/J ARC-12/J Three-phase balanced load; and the reactive power is relatively stable, and users who do not need frequent switching of capacitance compensation are required. Single-load (high-power motor) on-site compensation and low-voltage switchgear centralized compensation Contactor Self-healing power capacitor Three-phase total compensation ARC-6/R ARC-8/R ARC-10/R ARC-12/R Three-phase balanced load, or variable load, impact load. Single-load (high-power motor) on-site compensation and low-voltage switchgear centralized compensation Capacitive non-contact switching switch Self-healing power capacitor Three-phase total compensation ARC-12F-J ARC-16F-J Three-phase balanced load; and the reactive power is relatively stable, and users who do not need frequent switching of capacitance compensation are required. Single-load (high-power motor) on-site compensation and low-voltage switchgear centralized compensation Contactor Self-healing capacitor Three-phase total compensation, sub-supplement ARC-12F-R ARC-16F-R Three-phase balanced load, or three-phase unbalanced load, variable load, impact load. Single-load (high-power motor) on-site compensation and low-voltage switchgear centralized compensation Capacitive non-contact switching switch Self-healing power capacitor Three-phase total compensation, sub-supplement Note: Impact Loads: Welders, Cranes, High Power Motors, Rolling Mills, etc. Table 2 Product Selection Product number Function selection table Static output Dynamic output Overvoltage Undervoltage Overcurrent Under current Temperature protection Phase protection Harmonic protection communication Encoding ARC-6/J √ √ √ √ √ √ ARC-6/R √ ARC-8/J √ √ √ √ √ √ ARC-8/R √ ARC-10/J √ √ √ √ √ √ ARC-10R √ ARC-12/J √ √ √ √ √ √ ARC-12/R √ ARC-12F-J √ √ √ √ √ can selected √ √ Optional √ ARC-12F-R √ ARC-16F-J √ √ √ √ √ can selected √ √ Optional √ ARC-16F-R √ Fourth, the effectiveness of reactive power compensation In modern textile enterprises, a large number of inductive devices of different sizes are connected to the power system, so that in addition to the active power, the grid power needs reactive power. If the natural average power factor is between 0.70 and 0.85. The reactive power consumed by the enterprise's power grid accounts for about 60% to 90% of the active power consumed. If the power factor is increased to about 0.95, the reactive power only occupies about 30% of the power consumption. One is to save electricity expenses; the other is to increase the utilization rate of the equipment; thirdly, to reduce the energy consumption of the system; and fourth, to improve the voltage quality. references: [1] Ankerui Electric Co., Ltd. Product Selection Guide 2013.1. About the Author: Xu Shuang, female, undergraduate, Ankerui Electric Co., Ltd., the main research direction is reactive power compensation and active filter device design; Email: Mobile QQ Pearlescent Pigment Gold Series Pearlescent Pigment Gold ,Gold Mica Powder,Gold Pearl Pigment,Pearl Pigment Gold lilygroup Co.,Ltd , http://www.zjpigment.com