Project Overview
In Ukraine, where grid disruptions are frequent due to the prevailing situation, this photovoltaic foldable container equipped with energy storage batteries can be rapidly deployed in off-grid conditions.
Widely deployed across Ukraine and other regions with unstable grid infrastructure, it delivers reliable power for communities, medical facilities, rescue operations, and communications – becoming indispensable emergency equipment.
- Project Specifications
Applications
Community Power: Supplies essential electricity for residents’ daily needs, including lighting, mobile phone charging, refrigerators, and small heaters.
Medical Settings: Supports critical medical equipment at field clinics and damaged hospitals, including infusion pumps, compact ventilators, and sterilisation units.
Humanitarian Relief: Supplies refrigerated supplies at relief sites, provides lighting and heating at shelters, and powers rescue equipment like walkie-talkies.
Temporary Command & Communications: Ensures 24-hour power supply for communication base stations and satellite phones at temporary command centres or communications hubs, maintaining uninterrupted information flow.
Installed Capacity
Photovoltaic capacity: 46 kWp
Energy storage capacity: 50 kWh
Principal Equipment
Photovoltaic modules: 92 x 500 Wp monocrystalline photovoltaic panels.
Photovoltaic mounting system: Foldable photovoltaic racks compatible with 92 x 500 Wp panels, with an unfolded angle ≥15°, incorporating wheeled sliding mechanisms.
Energy Storage System: 50KWh off-grid storage system equipped with high-performance batteries, rated for 6000 charge/discharge cycles.
Integrated PV-Storage Inverter: PV input power ≥50KW, featuring multiple MPPT (Maximum Power Point Tracking) channels to ensure efficient PV system operation.
Lightning Protection: PV lightning protection box incorporating DC circuit breakers and PV surge arresters to safeguard stable system operation.
EMS (Energy Management System): Integrates sensors for access control, temperature/humidity, and water ingress, enabling real-time monitoring and optimisation of power usage.
