Provides seamless transition among virtual power plant, grid-connected, and off-grid modes with unbreakable power supply under broad operating conditions.
Preconfigured and preassembled design lowers delivery and on-site installation time and cost and facilitates deployment through plug-and-play features.
Auto-configuring nodes and fault predictability alerts during automated installation reduce on-site labor by 70% through automatic maintenance and dynamic fault alerting.
Local and remote upgrade, including over-the-air upgrades and batch upgrades, which improve performance by more than 90% over traditional point-to-point upgrade methods.
372KWh Outdoor Cabinet Series Commercial and Industrial Energy Storage System is industrial and commercial liquid-cooled energy storage system. It is single-box PCS, fire-proof, real-time monitor, heat control, and battery for energy storage. The outdoor cabinet gives the outdoor environment like rain, temperature, and dust an uninterrupted coverage and therefore an off-the-shelf solution to all deployment application.
372KWh high-density energy capability is assured to deliver best-in-class performance for bulk energy storage systems.
Enhanced temperature control of the battery during operating conditions via the application of smart liquid cooling technology thus extending battery efficiency and lifespan.
Standard modular structure enables simple growth and customisation for increased energy requirement.
Patent pending outdoor cabinet design with IP67 dust and water resistance for operation in extreme environments.
Integrated IoT-based monitoring center provides remote diagnostics, predictive maintenance alert, and active risk mitigation.
Enabling bump-less switch-over to off-grid and grid-parallel without communications cables for strong microgrid flexibility.
Front and rear doors for servicing economy and duration of maintenance of high usage.
Saves energy during peak load time and generates during off-load time, saves energy cost and shares equally on energy.
Application Scenario: Dynamic demand of load by industrial and commercial complexes.
How It Works: Brings energy supply and demand back into balance by storing excess energy during off-peak hours and delivering during peak hours.
Advantages: SAVES Operating cost, REDUCES Down-time, SMOOTHST Energy efficiency.
Application Scenario: With renewables for the utilization of stand-alone microgrids with reduced reliance on the main grid.
Operation Principle: With renewables for utilization of stand-alone renewable energy.
Advantages: Provides grid fault tolerance and self-generation.
Application Scenario: With wind or solar generator sets to take advantage of excess renewable energy.
How It Works: Buffered energy in direct chain from renewables, stabilizing intermittent generation.
Benefits: Efficiently taps most of the renewable energy and allows sustainable prosperity.
Application Scenario: Peak-load business companies willing to minimize peak demand charges.
How It Works: Stored energy, automatically supplied, during peak-demand periods.
Benefits: Squirrel's away operating costs and grid charges."
Application Scenario: Mission-critical buildings such as data centers, hospitals, and communications centers needing an uninterruptible power supply.
How It Works: Automatically converts to back-up mode in event of grid power supply loss with full powering of mission-critical applications.
Benefits: Saves time, prevents data loss, and safeguards mission-critical applications.
Application Scenario: Grid support service for supplying grid stability via frequency stabilizing, voltage supporting, and stand-by powering.
How It Works: Provides grid volatility within an extremely short time interval, modulating output energy to grid stabilization.
Benefits: Grid stabilizes and allows higher penetration of renewable energy from non-dispatchable sources.
Application Scenario: EV charge points with assured power supply during peak charging times.
How It Works: Compatible with installed base equipment, variability of energy supply minimum operating cost.
Benefits: Supports optimization of EV charge infrastructure and clean transport infrastructure.
Functionality: Delivers mission-critical IT equipment operation un-interrupted.
Benefits: Provides business continuity with negligible risk of downtime.
Usage Scenario: Powers off-grid mines, high-power-consumption factories from secure supplies.
How It Works: Intergenerates renewable energy sources to provide secure power with negligible or no usage of diesel generators.
Advantages: Sustains operating cost and carbon footprint level.
