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ENERPAT
ENERPAT Lithium Recycling Plant
The widespread use of lithium batteries has intensified environmental and resource waste concerns due to increasing volumes of spent batteries. Improper disposal of these batteries, containing materials like lithium hexafluorophosphate, organic carbonates, and heavy metals such as cobalt and copper, poses significant environmental risks. Simultaneously, lithium batteries hold substantial recycling value for resources like cobalt, lithium, copper, and plastics.
The implementation of the ENERPAT lithium recycling plant is crucial for mitigating the environmental threats and resource wastage associated with end-of-life lithium batteries. It serves as an effective method for promoting sustainable development and the circular use of resources.
Leading Safety with Nitrogen-Protected Crushing
Nitrogen Protection: The crushing system is entirely nitrogen-protected, with real-time oxygen monitoring ensuring O₂ levels below 5%, eliminating fire risks.
Active Fire Suppression: An intelligent monitoring system provides real-time alerts, automatically shutting down operations, closing valves, and activating a CO₂ fire suppression system in case of fire, preventing fire spread.
Crushing Efficiency: Achieves up to 4 tons/hour, with less than 1% coating after crushing, and offers adjustable output sizes to meet diverse needs.
Modular Design for Flexible Production
Flexible Layout: The entire line features a modular design, allowing customers to freely plan the layout based on their production site and needs.
Broad Applicability: Suitable for various lithium battery types, including ternary lithium, LFP, pouch cells, and blade batteries. Screen mesh sizes can be customized according to material characteristics.
High-Quality Components for Stable Operation
German Dillinger Alloy Blades: Tough, wear-resistant, heat-resistant, and corrosion-resistant, ensuring a longer service life.
Mortise and Tenon Welded Box Body: Vacuum tempered for 48 hours, providing high mechanical strength and long-term dimensional stability.
Fully Sealed Design: From feeding to shredding, the entire process is enclosed, strictly controlling safety aspects to ensure stable operation.
Win-Win for Environmental and Economic Benefits
Resource Recovery: Efficiently extracts valuable resources such as cobalt, lithium, and copper, enhancing economic returns.
Environmental Compliance: Scientifically processes end-of-life lithium batteries, preventing environmental pollution and assisting enterprises in achieving a green transition.
Material application
Cylindrical Battery
Soft Pack Battery
Blade Battery
Prismatic Battery
Output material
Battery fragment
Battery fragment
Overall Equipment Parameter | Crushing System | Feeding System | |||
External Dimensions of Equipment | Approximately 10000 x 10500 x 15000 mm (Length x Width x Height) | Power Configuration | Three-phase five-wire system 380V/50Hz | Equipment Mode | T1300 |
Model | MSC-E1900 | Elevator Type | Chain Single Bucket | ||
Crushing Method | Shearing | Elevator Height | Approximately 130,000mm | ||
Crushing Chamber Dimensions | 1870mm x 2070mm | Bucket Dimensions | 2000mm x 2000mm x 2500mm | ||
Drive Method | Motor-driven | Elevator Power | 11KW | ||
US Customer Site
Processed Materials: Soft Pack Batteries, Blade Batteries
Processing Capacity: 4000 kg/hour
Mexico Customer Site
Processed Material: BYD Batteries
Processing Capacity: 3500 kg/hour
Colombian Customer Site
Processed Material: Lithium Iron Phosphate Batteries
Processing Capacity: 3000 kg/hour
