How It Works
The EasyCube 215 kWh is a compact, modular energy storage system designed for commercial and industrial (C&I) applications. It features:
Advanced liquid cooling technology to ensure high performance and extended battery life,
Full support for PV integration,
Local EMS capabilities and cloud-based remote management,
High energy density in a small footprint.
In a typical industrial setting:
The system charges during off-peak hours or when excess solar power is available.
During peak demand (e.g., 4:00 PM – 7:00 PM), EasyCube supplies power to part of the facility, reducing grid consumption.
With 100% unbalanced load support and 110% long-term overload capability, the system adapts to dynamic operational conditions.
Business Impact
Up to 20–30% reduction in total energy costs.
Avoidance of penalties for peak demand overages.
Improved energy independence and cost predictability.
Scalable design to grow with operational needs.
Why EasyCube 215 kWh?
✅ Modular and scalable
✅ Advanced safety features (E-STOP, perfluorohexane suppression, IP protection, water immersion detection)
✅ Supports PV + Storage + EV charging strategies
✅ Ideal for industrial parks, data centers, and logistics hubs
Example Installation Sites for EasyCube 215 kWh
Manufacturing Facilities
To stabilize energy consumption, shave demand peaks, and support on-site solar generation.Logistics Centers and Warehouses
To ensure reliable operation of automated systems, reduce grid dependence, and manage energy costs.Commercial Office Buildings
To optimize energy use during working hours, integrate with rooftop PV systems, and improve building energy performance.Car Dealerships & EV Charging Stations
To balance peak loads from EV chargers and store excess solar energy generated on-site.Data Centers
To provide reliable backup power and support uninterrupted operations with intelligent peak management.Retail Parks & Shopping Malls
To reduce utility costs and support grid services while maintaining uninterrupted operation of HVAC and lighting systems.Public Sector Buildings (e.g., schools, hospitals, municipal offices)
To improve energy resilience and reduce operational costs through smart energy management.Agricultural Facilities (e.g., greenhouses, cold storage units)
To maintain power reliability for sensitive equipment and reduce exposure to fluctuating electricity tariffs.Hotel & Hospitality Sites
To integrate with PV, improve energy autonomy, and maintain stable power for HVAC and kitchen systems.
