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Power capacitors: The secret of electric field energy storage, isn’t it the cornerstone of power system stability?

2024.07.15

In the power system, power capacitors are a key device, and their working principle is crucial to ensuring the stable operation of the power system and improving energy efficiency.

Power capacitors are mainly composed of two metal plates (usually aluminum foil or copper foil) and an insulating medium between them. The insulating medium can be air, wax paper, polyethylene, etc., which is used to isolate the two plates and prevent short circuits. When working, the two plates are connected to the two ends of the AC power supply to form an electric field. The action of the electric field causes the charge to accumulate between the plates, thereby producing a capacitive effect.

The working principle of power capacitors is based on the energy storage of the electric field. When the capacitor is connected to an AC power supply, the voltage provided by the power supply forms an electric field between the plates. Under the action of the electric field, electrons flow from one plate to the other. In this process, the electrons gain potential energy, thereby realizing the storage of electrical energy. The amount of stored electrical energy is related to the plate area, the distance between the plates, and the dielectric constant of the medium.

Specifically, when the positive half cycle of the AC power source acts on the capacitor, the positive plate attracts electrons and the negative plate releases electrons, forming a charging process; in the negative half cycle, the situation is the opposite, and electrons flow from the negative plate to the positive plate, forming a discharging process. However, it should be noted that due to the characteristics of the capacitor, it does not actually consume electrical energy, but is constantly cycling in charge and discharge to maintain the current in the circuit.

Power capacitors are widely used in power systems, and significant role is to improve the power factor. The power factor is the ratio of useful power to apparent power, which reflects the effective utilization of electrical energy. In the power system, many electrical equipment (such as motors, transformers, etc.) will generate reactive power during operation, resulting in a decrease in power factor and system efficiency. Power capacitors can reduce reactive current in the line and improve power factor by providing reactive compensation, thereby improving system efficiency and stability.

Power capacitors can also be used to compensate for cable capacitance and DC filtering, reduce line losses, and improve voltage quality. Power capacitors also play an important role in carrier communication, measurement, control and protection of power systems. They can ensure stable signal transmission and improve the automation level and reliability of the system.

Although power capacitors have many advantages in power systems, they also face some technical challenges during use. For example, capacitors will generate a large charging inrush current when they are just powered on, which may affect the service life of the capacitor. To solve this problem, some measures can be taken to limit the size of the charging inrush current, such as using a soft start device or a series current limiting resistor.

As an important device in the power system, the working principle of power capacitors is based on the energy storage and release of the electric field. By providing reactive power compensation and improving power factor, power capacitors play an important role in improving system efficiency, stability and reliability. In the future, with the continuous advancement of technology and the continuous expansion of applications, power capacitors will play a more important role in the power system and contribute to the efficient use of energy and sustainable development.

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