From Retired Battery to Reliable Power — Safely and at Scale.
SLBS has developed a proprietary protocol to safely recover, test, and repurpose lithium-ion cells from EVs and industrial systems. The process delivers reliable, fire-safe energy storage that performs as well as — and in many cases better than — new packs.
- Step 1: Battery Recovery & Collection
- SLBS partners with OEMs, fleet operators, and recyclers to secure retired battery packs.
- Packs are transported using fire-safe transfer systems, reducing site liability for partners.
- Step 2: Automated Testing & Selection
- Every cell is tested for voltage, impedance, and thermal stability.
- Non-viable cells are responsibly recycled; viable cells are marked for second-life use.
- Testing protocols are aligned with UL 1974 and EU Battery Regulation (2023/1542).
- Step 3: Repurpose & Build
- Selected cells are recompiled into 100kWh modular racks (4 × 25kWh towers).
- Each tower integrates its own cooling, monitoring, and inverter control for safety.
- Modular architecture allows for scaling from 100kWh to multi-MWh capacity.
- Step 4: Deployment & Integration
- Systems arrive pre-integrated with inverter/transformer units.
- Connection is possible via single or three-phase (220V / 400V AC).
- Integration with solar PV, wind, or grid tie-in is straightforward.
- Step 5: Monitoring & Maintenance
- 24/7 cloud-based monitoring with secure data interface.
- Predictive analytics detect anomalies before they affect performance.
- Annual site visits and full 10-year maintenance included.
- Step 6: End-of-Life Recycling
- After ~10 years (3,600+ cycles), cells are collected for recycling.
- No disposal liability for customers.
- Circular loop ensures maximum material recovery.
Every SLBS system is engineered for long-duration storage, safety, and compliance, delivering peace of mind and measurable ROI.