Matching The Generation Side And The Load Side
Through Peak Shaving And Valley Filling To Achieve The Peak Regulation Function.
Peak shaving refers to maintaining the balance between power load and power generation over a long time span investing in more generator sets to meet demand during the peak period of power consumption and shutting down the corresponding units during the low period of power consumption.
The Bidirectional Flow Of Energy makes it Store Energy During The Low Valley
And Releases Electric Energy During The Peak Period To Realize Peak Shaving And Valley Filling
It can effectively reduce the peak-valley load difference of the power system and match the power generation end in the time span and load side to maintain system stability.
Energy Storage System
Optimizes Frequency Modulation Accuracy And Extends Power System Life
Power System Frequency Is The Most Sensitive Operating Parameter That Can Directly Reflect
System Stability And It Must Be Maintained Within A Fixed And Controllable Range During Daily Operation
When the power generation of the power system is unbalanced with the power load, the frequency
will change accordingly. When in short supply, the system frequency will decrease, and vice versa
Energy storage can optimize the frequency modulation function of the power system
01
speed and accuracy
the real-time response speed of energy storage can enhance the adjustment speed and accuracy of the power unit
02
prolonging the service life
the instantaneous charge and discharge function of energy storage can undertake the frequency modulation function of some small fluctuations, avoiding frequent actions of the unit. Thereby prolonging the service life of the overall power system
Supporting energy storage on the power generation side directly hits
the pain points of new energy power generation, becoming the only way to the energy cleanliness
of clean energy development
core
bottleneck
New energy power generation is different from traditional thermal power generation, which can manually adjust the power generation efficiency.
It is naturally highly dependent on the natural environment, which leads to obvious uncontrollability and instability. When it is connected to the grid, it will cause a huge current impact on the grid and damage the grid.
Thus solving the instability has become the core bottleneck of clean energy development.
01
uncontrollability
Naturally highly depending on the natural environment leads to obvious uncontrollability.
02
instability
Naturally highly depending on the natural environment leads to obvious instability.
03
impact and damage
When connected to the grid, it will cause a huge current impact on the grid and damage the grid.
On the power generation side, energy storage systems are mostly
equipped in large-scale centralized power plants to alleviate this technical bottleneck.
Peak Shaving And Valley Filling
The Zealuck energy storage system can realize “peak shaving and valley filling” by storing excess electricity that cannot be consumed and scheduling discharge time according to demand, so as to solve the problem of wind abandonment
Adjust short-term output and power
The Zealuck ESS can be frequently charged and discharged or quickly respond to frequency modulation signals to adjust the short-term output and power of new energy power generation in real-time, and relieve the pressure of frequency modulation and peak regulation on the power grid in a short period of time.
