Structure of High-voltage tuning reactor
• the iron core of our company’s dry-type iron-core series reactor using high quality imported silicon steel, the core columns is divided into uniform pieces by the number of air-gap , the air gap isolated by epoxy fabric panels , in order to ensure gap do not change when the reactor operate in long-term .
•iron core using High quality silicon steel end face gule, so silicon steel firm together , which reduces the running noise greatly , dust-proof and moisture-proof function with a good performance.
•coil is epoxy cast type, both inside and outside laying epoxy glass grid cloth to intensification, the system using Class F epoxy for casting under vacuum, the coil is not only good insulation, but also high mechanical strength, can withstand high current impact and thermal shock without cracking.
• Epoxy cast coil is non-absorbent, partial low discharge, can be operated safely in harsh environments.
• Upper and lower ends of the coil using epoxy and silicone rubber for shock pads, effectively reduces shock when the coil running
• the iron core of our company’s dry-type iron-core series reactor using high quality imported silicon steel, the core columns is divided into uniform pieces by the number of air-gap , the air gap isolated by epoxy fabric panels , in order to ensure gap do not change when the reactor operate in long-term .
•iron core using High quality silicon steel end face gule, so silicon steel firm together , which reduces the running noise greatly , dust-proof and moisture-proof function with a good performance.
•coil is epoxy cast type, both inside and outside laying epoxy glass grid cloth to intensification, the system using Class F epoxy for casting under vacuum, the coil is not only good insulation, but also high mechanical strength, can withstand high current impact and thermal shock without cracking.
• Epoxy cast coil is non-absorbent, partial low discharge, can be operated safely in harsh environments.
• Upper and lower ends of the coil using epoxy and silicone rubber for shock pads, effectively reduces shock when the coil running
Use
Dry-type iron core reactor is a important equipment of reactive power compensation devices in power system. Power capacitors with dry-type iron-core reactor in series, can effectively inhibit the high frequency harmonics, limit inrush current and operating in over-voltage , improve the voltage waveform of system, improve power factor, good for the power capacitors and other electrical equipment .
Dry-type iron core reactor is a important equipment of reactive power compensation devices in power system. Power capacitors with dry-type iron-core reactor in series, can effectively inhibit the high frequency harmonics, limit inrush current and operating in over-voltage , improve the voltage waveform of system, improve power factor, good for the power capacitors and other electrical equipment .
Conditions of Use
• Altitude: below 1000m.
• The surrounding has non-toxic gases, flammable and explosive materials
• Run-time entropy temperature -25 ℃ +45 ℃. Relative humidity less than 90%.
• The surrounding environment should have good ventilation.
Special conditions can be designed.
• Altitude: below 1000m.
• The surrounding has non-toxic gases, flammable and explosive materials
• Run-time entropy temperature -25 ℃ +45 ℃. Relative humidity less than 90%.
• The surrounding environment should have good ventilation.
Special conditions can be designed.
Technical performance parameters
• the size of dry-type reactor is smaller than conventional oil-immersed reactors and hollow reactor ,with functions of light weight, small space, simple structure, convenient installation.
• Class F temperature rating (155 ℃), when normal operation, the temperature of core and coil does not exceed 90K.
• Dry-type iron-core reactor can be long-term operation in 135 times of rated current
• noise of dry-type iron-core reactor is not greater than the national standard.
•pressure level of dry-type iron-core reactor is in line with the requirement of JB5346-1998 “series reactor”
• the size of dry-type reactor is smaller than conventional oil-immersed reactors and hollow reactor ,with functions of light weight, small space, simple structure, convenient installation.
• Class F temperature rating (155 ℃), when normal operation, the temperature of core and coil does not exceed 90K.
• Dry-type iron-core reactor can be long-term operation in 135 times of rated current
• noise of dry-type iron-core reactor is not greater than the national standard.
•pressure level of dry-type iron-core reactor is in line with the requirement of JB5346-1998 “series reactor”