The present disclosure relates to a system (100) for extracting electrode material from batteries. A shredding unit (104) configured to receive the cooled feedstock from the freezing unit (102). The shredding unit (104) is configured to shred the feedstock into powder form. A cyclone separator (110) configured with ...

The present disclosure relates to a system (100) to monitor the state of health (SoH) of cells, the system includes a battery health estimation device (102) coupled to the cells (104) to monitor the SoH. The battery health estimation device includes a microcontroller (110) configured to receive, from a voltage sensi...

The present disclosure provides an apparatus 100, a system 100, and a method for shredding batteries. The apparatus 100 includes conveyor(s) 104 configured with fixtures 102 to which batteries are fixed for movement within the apparatus 100, transverse and longitudinal blade assemblies to cut/shred the batteries alo...

The present disclosure relates to a system (100) for recycling metals from depleted batteries, the system includes a battery processor (102) configured to mechanically shred depleted batteries to produce black mass containing cathode and anode active material along with binders and recycle electrolyte solvents prese...

System (100) for fast discharging of one or battery cells (102) is disclosed. System (100) comprises a tank (104) for holding fluid, an electrical insulator (108) positioned within the tank (104), a one or more conducting members (106) are coupled with the electrical insulator (108), wherein the electrical insulator...

The present disclosure relates to a process for regeneration of battery grade graphite from spent Lithium ion batteries comprises black mass of NMC/LFP/LMO/LCO batteries black mass and a first acid are mixed by applying current and potential in ECL leaching reactor to obtain a Stage I graphite mixture in which a sec...