Main technical parameters:
- Rated voltage: 0.23kV, 0.4kV, 0.69kV, 1.14kV, 3.3kV, 6.3kV, 6.3kV, 6.6 kV, 6.6/√ 3 kV, 10.5 kV, 11 kV, 11/√ 3 kV, 12 kV, 12/√ 3 kV, 19 kV
- Rated capacity: 30~334kvar, other voltage levels and capacities can be specially ordered.
- Allowable capacity deviation:- 5~+15%
- Tangent value of loss angle: Film paper composite medium with TG δ ≤ 0.08%, full film medium with TG δ ≤ 0.05%
- Voltage endurance: The capacitor should be able to withstand 2.15 times the rated AC voltage or 4.3 times the rated DC voltage for 10 seconds without breakdown or flashover. Insulation level: 6kV level 30kV, 10kV level 42kV AC test lasted for 1 minute without breakdown or flashover.
- Self discharge performance: The capacitor equipped with a discharge resistor inside reduces the residual voltage from √ 2UN peak to below 75V within 10 minutes after power failure.
- Maximum allowable overvoltage: not exceeding 8 hours per 24 hours at 1.1 times the rated voltage, not exceeding 30 minutes per 24 hours at 1.15 times the rated voltage, not exceeding 5 minutes at 1.2 times the rated voltage, and not exceeding 1 minute at 1.3 times the rated voltage.
- Maximum allowable current: The allowable current for operation shall not exceed 1.3 times the rated current, and the transient overcurrent shall not exceed 1.43 times the rated current considering the effects of overvoltage, capacitor positive deviation, and harmonics.
- Compliant with standards: The product complies with the national standard GB/T 112024.1-2001 and the international standard IEC6087:1997.
Ordering and usage instructions:
- The selection of the rated voltage of capacitors must be based on the network voltage, considering that the input of capacitors will raise the voltage. Therefore, when selecting the rated voltage of capacitors, it should be at least 5% higher than the network voltage; When a reactor is connected in series in a capacitor circuit, the terminal voltage of the capacitor will increase correspondingly with the reactance rate of the connected reactor. Therefore, when selecting the rated voltage of the capacitor, it should be determined based on the reactance rate of the connected reactor after calculation.
- Capacitors are low impedance channels for harmonics. Under harmonics, a large amount of harmonics will be injected into the capacitor, causing overcurrent or overvoltage. In addition, capacitors can amplify harmonics and even resonate, endangering the safety of the power grid and greatly shortening the life of capacitors. Therefore, capacitors must be used in series with reactors that suppress harmonics when dealing with harmonics.
- When a capacitor is closed, the inrush current can reach hundreds of times the rated current of the capacitor. Therefore, the switch for switching capacitors should be a switch without heavy breakdown. To suppress the closing inrush current, a reactor can also be connected in series to suppress the inrush current.
- After disconnecting the capacitor with discharge resistor from the power supply, the rated voltage peak can drop below 75V within 10 minutes. If it is required to drop from the rated voltage peak to below 50V within 5 minutes after disconnecting the power supply, it should be specified when ordering.
- The capacitor used for line compensation should be installed at a voltage of 150-200kvar, and attention should be paid not to install the capacitor on the same platform as the transformer, and not to use the same group of drops, in order to prevent current overvoltage caused by ferromagnetic resonance during non full phase operation of the line, which may damage the capacitor and transformer.
- The selection of zinc oxide lightning arrester for protecting operation overvoltage should use capacitor specific zinc oxide lightning arrester, and it is best to install it between the capacitor poles.
- Quick break protection should use capacitor specific fuses, and the rated current should be selected as 1.43-1.5 times the rated current of the capacitor.
- When a capacitor is directly connected in parallel with a high-voltage motor, in order to prevent self excitation when the motor is disconnected from the power supply, which may cause the voltage at the capacitor terminals to rise above the rated value, the rated current of the capacitor must be less than 90% of the no-load current of the motor; When the motor adopts Y/△ wiring, it is not allowed to directly connect the capacitor to the motor in parallel, and a special wiring method should be adopted.
- When capacitors are used at altitudes above 1000 meters or in humid tropical regions, they should be specified when ordering.
- When there are special specifications or special requirements for capacitors, they should be explained when ordering.
Ordering Notice:
- Please provide detailed parameters of the product.
- Please provide us with as much product related information as possible regarding the product specifications, product drawings, product nameplates, product photos, etc. that you need to order, so that we can provide you with a faster and more accurate quotation.
- Please provide the product specifications, product drawings, product nameplates, product photos, etc. that you need to order, send email to: shanghaizhiyou@gmail.com We will reply as soon as we receive the email.
- You can also quickly contact our sales manager Yang through the following contact information: WeChat:+ 86 13122066665 or WhatsApp:+ 86 189 3091 2328.
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