Peak shaving in wind power, as the name suggests, involves “opposing” the peak and valley load work of the power grid. It is essentially an anomaly in which some local power grids or power plants ignore the interests of the whole. network for their own interests and working convenience during shaving work, they do not absorb energy from the system when the power grid is under load and the whole network has excess generation. Instead, they produce energy to compete for electricity production at peak times. , the unit's voltage is low and the temperature is high, reducing its adjustable power. As a result, this not only aggravates other problems, but the pressure from clipping and frequency modulation facilities also causes serious low frequency fluctuations in the system during operation.s peak periods. high loads; and severe high-frequency fluctuations occur during periods of low load at night. This phenomenon is usually called reverse peak clipping in dispatch terminology. The anti-clipping characteristics of wind power increase the difficulty of power grid peak shaving, increase the pressure on power grid frequency regulation and the frequency of conventional power supply adjustments. Insufficient peak shaving capacity will result in reduced wind during low load periods.
What are the anti-clipping characteristics of wind power?
Introduction What are the characteristics of wind power anti-peak shaving? Wind power anti-peak shaving, as the name suggests, involves “opposing” the peak and valley load work of the power grid. In essence, some local power grids or power plants use them. own power d