Pre-lithiation of multiple battery pouches

The invention claimed is: 1. A system for regulating a level of metal ions in electrodes of multiple lithium-ion cell stacks, the system comprising: a plurality of lithium-ion cell stacks, each cell stack comprising at least one anode, at least one separator and at least one cathode which are packaged in a pouch cover, the plurality of cell stacks packaged in a corresponding plurality of pouch covers, at least one electrolyte reservoir having an electrolyte fluid with at least one metal ion source, wherein the at least one electrolyte reservoir is in fluid communication with the plurality of pouch covers, at least one pump configured to maintain a circulating flow of the electrolyte fluid between the cell stacks after their packaging in the respective pouch covers and the at least one electrolyte reservoir, and circuitry configured to apply a predetermined voltage between electrodes of the cell stacks and the metal ion source in the at least one electrolyte reservoir, to regulate a level of the metal ions in the electrodes. 2. The system of claim 1 , wherein the at least one metal ion source comprises lithium and/or magnesium. 3. The system of claim 1 , wherein the level of metal ions is regulated in the anodes, the at least one metal ion source comprises lithium and the circuitry is configured to pre-lithiate the anodes during a formation process of the cell stacks. 4. The system of claim 1 , wherein the level of metal ions is regulated in the cathodes, the at least one metal ion source comprises lithium, and the circuitry is configured to pre-lithiate the cathodes during a formation process of the cell stacks. 5. The system of claim 1 , wherein the level of metal ions is regulated in the cathodes, the at least one metal ion source comprises lithium, and the system is configured to lithiate the cathodes following a formation process of the cell stacks. 6. The system of claim 1 , wherein the pouch covers are maintained during operation of the cell stacks. 7. The system of claim 1 , comprising at least two electrolyte reservoirs, of which at least one is configured to provide the metal ions during a formation process of the cell stacks, and at least another one is configured to load the pouch covers with electrolyte fluid after the formation process, for operation of the cell stacks. 8. A method of regulating a level of metal ions in electrodes of multiple lithium ion cell stacks, wherein each cell stack comprises at least one anode, associated at least one cathode and at least one separator packaged in a respective pouch cover, the method comprising: connecting at least one electrolyte reservoir, having a metal ion source therein, in fluid communication with the cell stacks in the respective pouch covers, maintaining circulating flow of electrolyte fluid between the cell stacks after their packaging in the respective pouch covers and the at least one electrolyte reservoir, and applying specified voltage between the electrodes of the cell stacks and the metal ion source in the at least one electrolyte reservoir, to regulate a level of the metal ions in the electrodes. 9. The method of claim 8 , wherein the metal ion source comprises at least one metal electrode comprising at least one of lithium, magnesium and sodium in the at least one electrolyte reservoir. 10. The method of claim 8 , comprising connecting at least two electrolyte reservoirs, of which at least one electrolyte reservoir is configured to provide the metal ions during a formation process of the cell stacks and at least another electrolyte reservoir is configured to load the pouch covers with electrolyte for operation of the lithium ion cell stacks the formation process. 11. The method of claim 8 , comprising applying a specified voltage simultaneously to the multiple cell stacks, wherein the at least one electrolyte reservoir is used commonly for all the cell stacks.