Cell manufacturing/Vacuum Drying
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< Battery value chain | Process | Cell manufacturingBattery value chain/Process/Cell manufacturing/Vacuum Drying
Simon Stier (talk | contribs) (updated from Vacuum_Drying) Tag: 2017 source edit |
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{{Semantic Element | {{Semantic Element | ||
|label=Cell manufacturing/Vacuum Drying | |label=Cell manufacturing/Vacuum Drying | ||
| − | |description===Production process== | + | |description= |
| + | ===Production process=== | ||
| − | * | + | *Stacks are stored in a vacuum oven |
| − | + | *During the drying process, residual moisture and solvents are removed from the electrodes, resp., stacks | |
| − | * | + | *Reduction of residual moisture is achieved by evaporation at low temperatures as a result of a low total pressure |
| − | * | + | *After vacuum drying, stacks are transferred directly to the dry room or dry packed under vacuum |
| − | *After vacuum drying | + | *Vacuum ovens can be operated with inert gas in order to prevent corrosion. |
| − | * | ||
| − | |||
| − | ==Process parameters & requirements== | + | ===Process parameters & requirements=== |
*Working pressure: 0.07 mbar < p < 1000 mbar | *Working pressure: 0.07 mbar < p < 1000 mbar | ||
| Line 18: | Line 17: | ||
*Inert gas supply | *Inert gas supply | ||
| − | = | + | ===Quality influences=== |
| − | |||
| − | |||
| − | |||
| − | |||
| − | ==Quality influences== | ||
*Constant heat supply and stable vacuum | *Constant heat supply and stable vacuum | ||
| Line 29: | Line 23: | ||
*Inert gas supply against corrosion | *Inert gas supply against corrosion | ||
| − | ==Quality features== | + | ===Quality features=== |
*Surface condition (cracks, etc.) | *Surface condition (cracks, etc.) | ||
*Residual moisture content (no residual moisture desired) | *Residual moisture content (no residual moisture desired) | ||
| − | ==Source== | + | ===Source=== |
Heimes, H.H.; Kampker, A.; Lienemann, C.; Locke, M.; Offermanns, C.; Michaelis, S.; Rahimzei, E. (2018) ''Lithium-Ion Battery Cell Production Process''; PEM of RWTH Aachen and VDMA, 3rd Edition, ISBN:978-3-947920-03-7 | Heimes, H.H.; Kampker, A.; Lienemann, C.; Locke, M.; Offermanns, C.; Michaelis, S.; Rahimzei, E. (2018) ''Lithium-Ion Battery Cell Production Process''; PEM of RWTH Aachen and VDMA, 3rd Edition, ISBN:978-3-947920-03-7 | ||
| + | |||
|relations={{Semantic Link | |relations={{Semantic Link | ||
|property=Has predecessor | |property=Has predecessor | ||
Revision as of 17:54, 19 November 2021
Description
Production process
- Stacks are stored in a vacuum oven
- During the drying process, residual moisture and solvents are removed from the electrodes, resp., stacks
- Reduction of residual moisture is achieved by evaporation at low temperatures as a result of a low total pressure
- After vacuum drying, stacks are transferred directly to the dry room or dry packed under vacuum
- Vacuum ovens can be operated with inert gas in order to prevent corrosion.
Process parameters & requirements
- Working pressure: 0.07 mbar < p < 1000 mbar
- Drying time: 12 h - 30 h per batch
- Drying temperature: 60°C - 150°C
- Inert gas supply
Quality influences
- Constant heat supply and stable vacuum
- Longer resting times only possible in the dry room
- Inert gas supply against corrosion
Quality features
- Surface condition (cracks, etc.)
- Residual moisture content (no residual moisture desired)
Source
Heimes, H.H.; Kampker, A.; Lienemann, C.; Locke, M.; Offermanns, C.; Michaelis, S.; Rahimzei, E. (2018) Lithium-Ion Battery Cell Production Process; PEM of RWTH Aachen and VDMA, 3rd Edition, ISBN:978-3-947920-03-7
Semantic Links
Add or edit outgoing links
To edit incoming links, go to the subjects site.
Outgoing
| Subject | Property | Object |
|---|---|---|
| Cell manufacturing/Vacuum Drying | HasSuccessor | Cell manufacturing/Stacking |
| Cell manufacturing/Vacuum Drying | HasPredecessor | Cell manufacturing/Separation |
Incoming
Semantic Statements
External Identifiers
IRI:
