RFM 0.375-1.2KV 180-1000kvar Indoor High Voltage Water Cooling Reactive Compensation Electric Heating Capacitor
RFM 0.375-1.2KV 180-1000kvar Indoor High Voltage Water Cooling Reactive Compensation Electric Heating Capacitor
Factory direct supply water cooling electric heating capacitor, suitable for indoor high voltage reactive compensation. RFM 0.375-1.2KV, 180-1000kvar capacity.
The electric heating capacitor uses roughened polypropylene film and high-performance liquid (without PCB) as the composite medium, high-purity aluminum foil as the pole plate, porcelain sleeve screw and cooling water pipe as the lead-out terminal, aluminum alloy plate as the shell, with water cooling inside Tube. The shape is mostly cuboid box structure. Electric heating capacitors are mainly used in controllable or adjustable AC voltage systems with a fixed voltage of not more than 4.8kV and a frequency of 100kHz and below. They are specially used to improve the power factor of induction heating, melting, stirring or casting devices , and similar applications. . The product performance meets the standard requirements of GB/T3984-2004 "Power Containers for Induction Heating Devices". (Standard GB/T3984.1-2004/IEC60110-1998)Main technical performance ●Capacitance deviation: ±10%, the ratio of the maximum value to the minimum value of each equal group capacitor is not more than 1.1. ●Dielectric loss tangent value tanδ (full film dielectric) at rated voltage Un, 20℃: A. Un≤1kV: tanδ≤0.0015. B. Un >1kV: tanδ≤0.0012. ●Dielectric strength: The terminal and the shell can withstand the power frequency test voltage of 1kV for 1min. ●The inlet temperature of cooling water should not exceed 30℃. A. Capacitors with Qn≤1000kvar, water flow≥4L/min. B. Capacitors with Qn≥1000kvar, water flow rate≥6L/min. ●Long-term operation overvoltage (not more than 4h in 24h) does not exceed 1.1Un. ●The long-term running overcurrent (including harmonic current) shall not exceed 1.35In. ●Indoor installation, the altitude does not exceed 1000m. ●The ambient air temperature in the installation and operation area is not higher than 50℃. ●The installation site has no severe mechanical vibration, no harmful gas, vapor and explosive dust. ●RWM and RFM type water-cooled, all-film electric heating capacitors meet the standards of JB7110-93 "Electric Heating Capacitors" and IEC60110 (1998) "Frequency 40-24000Hz Capacitors for Induction Heating Devices". ●Heart: The heart is composed of several parallel elements, and the capacitor element is rolled by capacitor paper (medium) and aluminum conductor (plate). The element pole plates are all protruding out of the medium, and one pole plate is welded with the cooling water pipe, and is connected with the grounding stud or grounding plate on the cover through the cooling water pipe, which is the total outlet of the pole plate. ●The second pole plate is insulated from the shell, connected with the guide rod by the connecting piece, and drawn out through the porcelain sleeve on the cover. ●Case shell: The box shell is a rectangle, and there are hangers welded on both sides of the box wall for carrying. The cover is equipped with a porcelain sleeve with a horn and a grounding stud or grounding lug. 1. It is made of polypropylene film with good high frequency characteristics as the medium, aluminum foil as the electrode, full film structure, and non-inductive winding. 2. Giant aluminum shell, one-way lead out, with water cooling system. 3. It has strong overcurrent capability, high frequency of use and low loss. 4. It is suitable for the resonant circuit of high frequency and super audio frequency induction heating equipment to improve the power factor or improve the circuit characteristics. Product use conditions: 1. The altitude does not exceed 1000m, indoor installation. 2. There is no severe mechanical vibration in the installation site, no harmful gas and steam, and no conductive dust. 3. The cooling water inlet temperature should not exceed 30℃. For capacitors below 1000kVar, the water flow should not be lower than 4L/min, and for capacitors with 1000kVar and above, the water flow should not be lower than 6L/min. The air temperature around the capacitor should not exceed 50℃. 5. Long-term overvoltage (not more than 4 hours in 24 hours) does not exceed 1.1Un, and long-term overcurrent (including harmonic current) does not exceed 1.3lnThe selection of the rated voltage of the capacitor must be based on the network voltage. Considering that the input of the capacitor will increase the voltage, so when selecting the rated voltage of the capacitor, it is at least 5% higher than the network voltage ; when there is a reactor in the capacitor circuit, the terminal voltage of the capacitor The ground increases with the reactance rate of the reactor in series, so when selecting the rated voltage of the capacitor, it should be determined after calculation according to the reactance rate of the reactor in the string. Capacitors are low-impedance channels of harmonics. Under harmonics, a large amount of harmonics will be injected into the capacitors to make the capacitors overcurrent or overvoltage. In addition, the capacitors will amplify the harmonics and cause resonance when they expire, endangering the safety of the power grid and making the capacitors lifespan. Therefore, capacitors with large harmonics must be used under reactors that suppress harmonics. The inrush current when the capacitor is closed can be as high as hundreds of times of the rated current of the capacitor. Therefore, the switch for switching the capacitor should choose a switch without re-breakdown. In order to suppress the closing inrush current, a reactor that suppresses the inrush current can also be connected in series. After the capacitor with internal discharge resistance is disconnected from the power supply, it can drop from the peak value of the rated voltage to below 75V within 10 minutes . be explained when. Capacitors used for line compensation should be installed at 150~200kvar in one place, and be careful not to install the capacitors on the same stage as the transformer, and do not use the same group of dropouts to prevent overshooting caused by ferromagnetic resonance when the line is not running in all phases. Current overvoltage can damage capacitors and transformers. The zinc oxide surge arrester for the protection of operating overvoltage should be selected for the zinc oxide surge arrester dedicated to the capacitor, and it is best to install it between the capacitor poles. The fuse specially used for capacitor is selected for quick-break, and the rated current should be selected according to to 1.42~1.5 times of the rated current of the capacitor. When the capacitor is directly connected to the high-voltage motor in parallel, in order to prevent self-excitation when the motor is disconnected from the power supply, causing the voltage of the capacitor terminal to rise greater than the rated value, the rated current of the capacitor must be less than 90% of the no-load current of the motor; When using Y/△ wiring, it is not allowed to connect the capacitor directly to the motor in parallel, and a special wiring method should be adopted. When the capacitor is used at an altitude higher than 1000 meters or the capacitor is used in the humid tropical zone, it should be stated when ordering. Special spe certifications or special requirements for capacitors should be specified when ordering. Installation and use matters: ●The installation of capacitors is not allowed to have vibration phenomenon. It is allowed to install capacitors close to the heater, but non-combustible materials should be used as solid partition walls to surround the capacitors or put them in a separate metal cabinet. ●To prevent the capacitor cooling water pipe from being damaged, the temperature of the capacitor installation site should not be lower than ±2℃. ●The capacitor must be installed vertically (the porcelain sleeve is facing up). It is strictly forbidden to use the porcelain sleeve to move the capacitor, and the interval between the capacitors is at least 20 mm. ●The connection between the cooling water pipes of the capacitor and the connection between the cooling water pipe and the water source pipe must be made of soft rubber pipes. Cooling water pipes can be connected in series, but not more than three capacitors. The drain pipe should not be covered, and should be placed in a place where it is easy to observe the outflow of water, so that the water outflow can be monitored at any time. ●The temperature of cooling water should not exceed +30℃ at the inlet and +35℃ at the outlet. When a certain number of cooling water pipes are connected in series (up to 3 sets), the water pressure and water consumption can be adjusted to adjust the temperature difference between the inlet and outlet water, so that the temperature at the outlet does not exceed +35℃, and the pressure of the cooling water at the inlet should not exceed 4 atmospheric pressure. ●If the water supply is stopped due to a fault, the power supply of the capacitor should be cut off immediately. When the capacitor is out of use due to a fault, all the water in the cooling water pipe should be drained. ●When several grouped outlets on the capacitor are used in parallel, a flexible connection sheet should be used. At the same time, the main outlet should be drawn out from the flexible connection, and should not be drawn out from any one of the grouped outlets. The cross-sectional area of the connecting piece shall not be less than 2.5cm2. ●When the line voltage is higher than the rated voltage of the capacitor, the number of capacitors connected in series can be adjusted or each lead in the capacitor connected in series can be used in series