Project Introductions
In Yemen, reliable electricity is vital for healthcare, especially in remote areas. At the hospital, a fully off-grid solar system ensures uninterrupted operation, providing clean renewable energy to support vital medical care. The system consists of 30 x 550W solar panels, 16kW DEYE inverters for seamless energy conversion, and 6 x B-LFP48-200E batteries to store 60kWh of energy. This setup ensures a reliable and sustainable power supply for the continued operation of the centre.
Product Descriptions
B-LFP48-200E is a high-capacity, rack-mounted lithium iron phosphate (LiFePO4) battery with a 10kWh capacity per unit, designed for both grid-tied and off-grid solar systems. With a maximum continuous discharge rate of 1C and a cycle life of over 6,000 cycles, it offers long-lasting, dependable performance. The modular design allows up to 63 units to be connected in parallel, enabling flexible scaling for larger energy storage needs. It provides proven reliability, with a robust track record of operational performance in various applications, including healthcare, telecommunications, and UPS systems.
User Benefits
The installation of the energy storage system at the hospital ensures a steady and reliable power supply, critical for continuous healthcare delivery, especially in emergencies. The off-grid setup eliminates reliance on unstable or unavailable local grids, providing peace of mind for both patients and staff. With long-lasting batteries and scalable storage, the system also offers a cost-effective and sustainable solution, reducing energy costs and carbon footprint while ensuring optimal power availability for crucial medical equipment.
