From the energy buffer of photovoltaic power stations to the peak shaving center of power grid systems, and then to the power stabilizer of wind farms, sodium-ion batteries are becoming the all-round "energy bank" in the field of power storage.
In the photovoltaic energy storage scenario, it stores the intermittent energy of photovoltaic power stations in real time and releases it as needed through efficient charging and discharging and long cycle life, solving the problem of photovoltaic output fluctuations and making the supply of clean power more stable. In the grid-side energy storage scenario, sodium-ion batteries, with their rapid response and large-capacity storage, have become "flexible pawns" for peak shaving in the power grid, smoothing out the difference between peak and off-peak electricity consumption and ensuring the stable and efficient operation of the power grid at all times. In the field of wind power energy storage, its strong adaptability and reliable performance effectively mitigate the intermittency and randomness of wind power, making the power output of wind power more controllable and facilitating the large-scale grid connection and consumption of wind power.
From the support of new energy power stations to the central regulation of the power grid and then to the consumption support of wind power, sodium-ion batteries, with their technological advantages, have crossed multiple scenarios of power storage, providing solid energy storage momentum for building a new power system and achieving the green transformation of energy.
