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| | + | {{AccessControl/Public}} |
| | ==Cluster-KPIs== | | ==Cluster-KPIs== |
| | <br /> | | <br /> |
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| | The KIproBatt project aims at increasing the Overall Equipment Effectiveness (OEE) by improving the quality factors: | | The KIproBatt project aims at increasing the Overall Equipment Effectiveness (OEE) by improving the quality factors: |
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| − | * Reduction of scrap parts | + | *Reduction of scrap parts |
| − | * Reduction of reworking parts | + | *Reduction of reworking parts |
| − | * Integration of real-time sensor data | + | *Integration of real-time sensor data |
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| | <math>Quality = \frac{\text{flawless products}}{\text{actual output}} \times 100</math> | | <math>Quality = \frac{\text{flawless products}}{\text{actual output}} \times 100</math> |
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| | '''Base value''' | | '''Base value''' |
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| | <math>Quality = \frac{\text{no. produced parts - (no. rework + no. scrap)}}{\text{no. produced parts}}</math> | | <math>Quality = \frac{\text{no. produced parts - (no. rework + no. scrap)}}{\text{no. produced parts}}</math> |
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| | '''Current state''' | | '''Current state''' |
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| | No improvement achieved yet, as laboratory battery production has not yet started. | | No improvement achieved yet, as laboratory battery production has not yet started. |
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| | '''Target value''' | | '''Target value''' |
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| | The quality parameter should be increased by approx. 5%. | | The quality parameter should be increased by approx. 5%. |
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| | The KIproBatt project aims at decreasing the Total Cost of Operations (TCO) by improving the subsequent factors: | | The KIproBatt project aims at decreasing the Total Cost of Operations (TCO) by improving the subsequent factors: |
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| − | * Reduction of energy consumption | + | *Reduction of energy consumption |
| − | * Cost of operating materials (e.g., reduction in the use of operating materials, avoidance of waste) | + | *Cost of operating materials (e.g., reduction in the use of operating materials, avoidance of waste) |
| − | * Integration of real-time sensor data | + | *Integration of real-time sensor data |
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| | The base value for the laboratory battery production process is to be determined on the basis of the first battery batch produced (approx. 50 batteries). | | The base value for the laboratory battery production process is to be determined on the basis of the first battery batch produced (approx. 50 batteries). |
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| | '''Current state''' | | '''Current state''' |
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| | By using the reference process in the forming process, the energy consumption and the associated energy costs are already reduced compared to the original process. Energy consumption is thus reduced by approx. 2% (20% reduction in energy consumption in the forming process, 9.4% share of forming in total energy consumption). | | By using the reference process in the forming process, the energy consumption and the associated energy costs are already reduced compared to the original process. Energy consumption is thus reduced by approx. 2% (20% reduction in energy consumption in the forming process, 9.4% share of forming in total energy consumption). |
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| | '''Target value''' | | '''Target value''' |
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| | Electrolyte consumption of 4 ml per 870 mAh cell | | Electrolyte consumption of 4 ml per 870 mAh cell |
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| | '''Current state''' | | '''Current state''' |
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| | No improvement achieved yet, as laboratory battery production has not yet started. | | No improvement achieved yet, as laboratory battery production has not yet started. |
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| | '''Target value''' | | '''Target value''' |
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| | The material consumption per unit should be reduced to by approx. 12.5%. The target value for electrolyte consumption is 3.5 ml per 870 mAh cell. | | The material consumption per unit should be reduced to by approx. 12.5%. The target value for electrolyte consumption is 3.5 ml per 870 mAh cell. |
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| | ====<u>Share of digital interfaces</u>==== | | ====<u>Share of digital interfaces</u>==== |
| | The KIproBatt project aims at increasing the share of digital interfaces that are integrated in the production process. This share is measured by combining two factors: | | The KIproBatt project aims at increasing the share of digital interfaces that are integrated in the production process. This share is measured by combining two factors: |
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| − | * Share of data points that are recorded for a single cell. | + | *Share of data points that are recorded for a single cell. |
| − | * Share of data points that is assigned to a single cell without human intervention (automatically). | + | *Share of data points that is assigned to a single cell without human intervention (automatically). |
| | + | <math>\text{KPI2}=\frac{\text{no. recorded data points}}{\text{no. considered parameters}}\times\frac{\text{no. assigend data points}}{\text{no. considered parameters}}</math> |
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| | '''Base value''' | | '''Base value''' |
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| − | Electrolyte consumption of 4 ml per 870 mAh cell
| + | The base value stems from the data point assessment prior to installation of additional sensors and the total number of data points included in the project's process impact matrix. |
| | + | *Recorded data points: 52% |
| | + | *Automatically assigned data points: 23% |
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| | '''Current state''' | | '''Current state''' |
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| − | No improvement achieved yet, as laboratory battery production has not yet started.
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| | + | {{#ask: [[-has parameter.-HasPart::Fraunhofer_ISC/Processes/KIproBatt_v1/Process]] |
| | + | |?HasType |
| | + | |mainlabel=- |
| | + | |format=jqplotchart |
| | + | |charttype=bar |
| | + | |min=0 |
| | + | <!-- |chartlegend=e--> |
| | + | |distribution=yes |
| | + | |distributionsort=desc |
| | + | |datalabels=value |
| | + | |valueformat=%d |
| | + | }} |
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| | + | {{#ask: [[Fraunhofer_ISC/Processes/KIproBatt_v1]] |
| | + | |?HasParameterCount=Total Parameters |
| | + | |?HasUnrecordedParameterCount=Unrecorded Parameters |
| | + | |?HasRecordedParameterCount=Recorded Parameters |
| | + | |?HasManuallyRecordedParameterCount=Manually Recorded Parameters |
| | + | |?HasAutomaticallyRecordedParameterCount=Automatically Recorded Parameters |
| | + | |?HasShareOfRecordedDatasets#-p0=Recorded/Total |
| | + | |?HasShareOfAutomaticallyRecordedDatasets#-p0=Automatically Recorded/Total |
| | + | |format=table |
| | + | |transpose=true |
| | + | }} |
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| | + | KPI2 = {{#expr: |
| | + | 0.01*{{#show: Fraunhofer_ISC/Processes/KIproBatt_v1 |?HasShareOfRecordedDatasets # -n }} |
| | + | * 0.01*{{#show: Fraunhofer_ISC/Processes/KIproBatt_v1 |?HasShareOfAutomaticallyRecordedDatasets # -n }} |
| | + | round 2 }} |
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| | '''Target value''' | | '''Target value''' |
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| − | The material consumption per unit should be reduced to by approx. 12.5%. The target value for electrolyte consumption is 3.5 ml per 870 mAh cell.
| + | *Recorded data points: 92% |
| | + | *Automatically assigned data points: 90% |
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| | ===Variable production costs=== | | ===Variable production costs=== |
| − | The variable production costs are composed of the energy, material, scrap and manufacturing costs.
| + | Production costs are made up of several variable costs. In the context of the project, the energy, material, scrap and manufacturing costs are considered. |
| | + | <math>\text{KPI3}=\frac{\text{total var. production costs}}{\text{costs for flawless batteries}}</math> |
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| | + | '''Base value''' |
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| − | Current variable production costs: | + | The base value stems from the assumption of having 10% scrap products (KPI 3 ≈ 1.11). The base value for the laboratory battery production process is to be determined on the basis of the first battery batch produced (approx. 50 batteries). |
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| | + | '''Current state''' |
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| | + | No improvement achieved yet, as laboratory battery production has not yet started. |
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| | + | '''Target value''' |
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| − | *100%
| + | The variable production costs should be reduced by approx. 5% (KPI 3 ≈ 1.05). |
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| − | Target variable production costs:
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| − | *90%
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