Difference between synchronous and asynchronous generator
Synchronous and asynchronous generators are the two main types of generators that are used to generate electrical energy. Depending on the type, the viability of generators at other sites varies. It is therefore very important to know about the differences in the functioning of synchronous and asynchronous industrial generators. The employees of the online store “PLUS ENERGY” told us about the main features: https://plusenergy.com.ua/ua/g85586189-industrialnye-dizelnye-elektrostantsii.
Features of a synchronous generator
- Spin with steel speed: Synchronous The generator generates electrical energy at constant wind speed. It has a fixed frequency, which is related to the frequency of generation of the current (either 50 Hz or 60 Hz). wow, the wrapping is to blame synchronized with the frequency for stable generation of electrical energy.
- Voltage stability: The synchronous generator ensures high voltage stability and can ensure power supply stability, suitable for critical applications. stosuvan.
- Supporting reactive tension: Synchronous generator You can control the reactive tension and vikoristuvat її to support the electrical system.
Features of an asynchronous (inductive) generator
- Variable winding: An asynchronous generator can be operated at different swedishness The wrapper does not have a fixed frequency.
- Does not require synchronization with the network: It does not require synchronization with the current network and can operate independently.
- Be less stable There are voltages: The asynchronous generator may have less stability The voltage is equalized from a synchronous generator and can be used to control the reactive voltage.
Combined between synchronous i with an asynchronous generator, it is important to take into account the specific capabilities of your electrical system, such as maintaining voltage stability, sustained energy, the ability to support reactive tension and variability. The skin type of generator has its own benefits and exchange, and combines one trace of these factors to improve the optimal functioning process.