YH5WZ 35KV zinc oxide arrester for high voltage power station
YH5WZ 35KV zinc oxide arrester for high voltage power station
YH5WZ 35KV Zinc Oxide Arrester for High Voltage Power Station - Trust in our factory for reliable and efficient lightning protection solutions. Shop now for premium quality products.
Surge arrester is a kind of overvoltage protector, which is mainly used to protect various electrical equipment (transformers, switches, capacitors, wave arresters, transformers, generators, motors, power cables, etc.) in power systems, railway electrification systems, and communication systems. ) is protected from atmospheric overvoltage, operating overvoltage and power frequency transient overvoltage, etc., and is the basis for the insulation coordination of power systems. The core element (resistor sheet) of the metal oxide arrester adopts an advanced formula based on zinc oxide, which has very excellent nonlinear (volt-ampere) characteristics, that is, under normal operating voltage, the current passing through is only microampere level. , When subjected to overvoltage, the passing current reaches thousands of amperes instantaneously, making the arrester in a conducting state and releasing overvoltage energy, thereby effectively limiting the damage of overvoltage to power transmission and transformation equipment. The traditional SiC arrester has the disadvantages of high steep wave discharge voltage caused by steep wave discharge delay, and high operating wave discharge voltage due to large operating wave discharge dispersion. The zinc oxide arrester has the advantages of good steep wave response characteristics, no delay to the steep wave voltage, low operating residual voltage, and no discharge dispersion. The protection margin of steep waves and operating waves is greatly improved, and in terms of insulation coordination, the protection margins of steep waves, lightning waves and operating waves can be nearly the same, thus providing the best protection for power equipment.. The composite jacket metal oxide arrester adopts the overall injection molding and two-end encapsulation process, with good sealing performance, excellent explosion-proof performance, pollution resistance, no cleaning, and can reduce the occurrence of wet flash in foggy weather, electric corrosion resistance, anti-aging, small size, light weight , easy to install and maintain. It is a replacement product of porcelain sleeve arrester.1. Small size, light weight, collision resistance, no damage to transportation, flexible installation, suitable for use in switch cabinets 2. Special structure, integral molding, no air gap, good sealing performance, moisture-proof and explosion-proof 3. Large creepage distance, good water repellency, strong dirt resistance, stable performance and reduced operation and maintenance 4. Zinc oxide resistor with unique formula, small leakage current, slow aging speed and long service life 5. The actual DC reference voltage, square wave current capacity and high current tolerance are higher than the national standard Power frequency:48Hz ~60Hz -Ambient temperature:-40°C~+40°C -Maximum wind speed: not exceed 35m/s -Altitude: not exceed 2000m -Earthquake intensity: not exceed 8 degrees -Ice thickness: not exceed 10 meters. -Long-term applying voltage does not exceed the maximum coutinuous operating voltage.The production standard of the product is GB11032-2000 (eqv IEC60099-4:1991) "AC No-gap Metal Oxide Surge Arrester", JB/8952-2005 "Composite Jacket No-gap Metal Oxide Surge Arrester for AC System" 1. The arrester should be stored in a clean and dry room before installation and use. Must not be corroded by corrosive gases or liquids. 2. Before the arrester is put into operation, a preventive test should be carried out. After being put into operation, it should also be regularly (10KV and below arrester once every 5 years, 35KV and above arrester once every 2 years) Do the following test and compare with the data before operation with reference to the attached table: a. Measure the insulation resistance of the arrester b. Measure the DC 1mA voltage of the arrester c. Measure the leakage current of 0.75 times DC 1mA