As the supporting infrastructure of the energy revolution, energy storage technology has built a new power system architecture.
On the power generation side, the energy storage system participates in the grid frequency regulation through rapid power response, effectively smooths the fluctuation of new energy output, and improves the system regulation margin; on the grid side, energy storage facilities can build a virtual peak-shaving resource pool, enhance the resilience of the grid and delay the investment in transmission and distribution equipment; on the user side, distributed energy storage optimizes energy costs through peak-valley electricity price arbitrage, while reducing the demand charge burden.
Flywheel energy storage technology plays a strategic role in the energy storage matrix with its unique advantages. This technology has three core advantages: its millisecond response speed characteristics can realize instantaneous two-way regulation of power, accurately compensate for the random fluctuations of new energy generation, and build a copper wall for the stability of grid frequency; its cycle life exceeds the 100,000 mark, and the full life cycle cost is significantly reduced, which is particularly suitable for energy storage scenarios that require long-term stable operation; its operation process has zero carbon emissions, which perfectly matches the concept of green energy development and becomes a model of sustainable energy storage solutions.
Key features of Inomax 1140V AC drive:
Modular design, fast power expansion
Island detection technology
Quick switching between on-grid and off-grid
Online switching of constant power and constant voltage modes
Support PROFINET, Ethercat, TCP and other high-speed Ethernet communications
Convenient debugging, fast deployment
Support multi-machine parallel connection
Adapt to 6/12-phase flywheel motor control
