BMW Group battery cell samples production
Cell manufacturing begins with electrode production. Here the base material, comprising, for example, graphite for the anode and nickel oxides for the cathode, with binders and solvents, is metered and mixed in a precisely measured ratio. This creates the so-called “slurry” - which means wafer-thin metal foils are coated and then compressed after drying. In technical jargon, this is referred to as “calendering”. The highest level of precision is required: The foil is just a few micrometres thick - in other words, thinner than the threads of a spider web, while the coating is in the micrometre range. During cell assembly, the coated foils, referred to as calendered electrodes, are wound into so-called “jelly rolls” using the separator and inserted into the cell housing. The cells are filled with electrolyte, then charged for the first time and finally checked for functionality and quality.
The battery cell is responsible for electric vehicles’ core properties: range, driving performance and charging time. With the new BMW round cell specially designed for the electric architecture of the Neue Klasse models, it will be possible to significantly increase the range of the top model by up to 30 percent (according to WLTP).
The new BMW round cells come with a standard diameter of 46 millimetres and two different heights of 95 millimetres and 120 millimetres. Compared to the prismatic cells of the fifth BMW battery cell generation, the nickel content of the sixth-generation BMW round cells will be higher on the cathode side, while the cobalt content will be reduced. On the anode side, the silicon content will be increased. As a result, the cell’s volumetric energy density will improve by more than 20 percent.
Battery, drive train and charging technology in the Neue Klasse will have a higher voltage of 800 volts. Among other things, this will optimise how energy is supplied to direct current high-power charging stations, which can achieve a much higher charging capacity with a current of up to 500 amperes - thus reducing the time it takes to charge from ten to 80 percent by up to 30 percent.
Raw materials are among the significant cost factors for cell production. Efficient and responsible use of raw and carrier material is therefore necessary and makes sense from both an environmental and economic perspective. At the new CMCC, experience will be gained from all processes and the lessons learned analysed to further optimise the use of resources. Residual materials from the production process will be collected at the CMCC, sorted and fed back into the cell production cycle. In addition to working on the cell manufacturing process, BMW Group experts are also focusing on reusing materials and components from the whole battery after its initial use in the vehicle.
At the Battery Cell Competence Centre (BCCC) in Munich, the first battery cells made from 100% recycled and/or secondary (battery-grade) cathode material have been manufactured and tested using state-of-the-art characterisation methods. Our cell suppliers are already delivering battery cells containing secondary raw materials (e.g. nickel) from various used-battery sources (incl. production waste). The long-term aim of the BMW Group is to reuse all raw materials in recyclable high-voltage batteries.
Source: bmw group
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