Our recycling technology is a proprietary, non-polluting physical recycling and material-reuse system. We recover battery materials without destroying their functional structure. Unlike traditional hydrometallurgical or pyrometallurgical methods, we focus on direct separation, activation, and restoration of cathode, anode, electrolyte, and current-collector materials. The result: high recovery rates, lower energy consumption, and true closed-loop reuse in battery manufacturing.
UNEH Process
Recycled Material Outputs
ACTIVE MATERIALS
CURRENT COLLECTORS
STRUCTURAL COMPONENTS
RESTORED LFP CATHODE MATERIAL
COPPER FOIL
ELECTROLYTE COMPONENTS
RESTORED ANODE MATERIAL
ALUMINUM FOIL
CERAMIC MICROPOROUS SEPARATOR MATERIALS
REUSABLE PLASTIC COMPONENTS
Performance Metrics
| LFP batteries | 98% total component recovery |
| Ternary (NCM) batteries | 95% total component recovery |
| Traditional LFP / NCM recovery | ~28% / ~44% |
| Energy savings | >50% vs. traditional recycling |
| Emissions | Zero toxic gas; minimal to no wastewater |
| Time to commission (10,000 t/year) | 6 to 8 months (UNEH) vs 12 to 18 months (traditional) |
| Processing cost at scale | < RMB 3,000 per ton |