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ZEISS EMOBILITY SOLUTIONS
Quality Assurance for
Fuel Cell Systems
Reliable components through inspection and quality data
Fuel Cell System Quality Management
Precision inspection of individual cell componentsComprising a bipolar plate (BPP) and a membrane electrode assembly (MEA), each fuel cell in the stack is connected in series and therefore crucial to overall system quality. To ensure compliance with stringent demands, they must be inspected in relation to their coating, potential surface defects including contamination, and weld seam.
ZEISS solutions help meet quality requirements throughout the entire value chain for fuel cell system production. Hardware and software work in tandem to generate clear component-related reports.
Full Coverage of Fuel Cell System Applications
Since fuel cell systems provide the entire energy needed to power the electric drivetrain, all system components must be produced in line with the highest standards so as to enable a reliable supply. From the bipolar plate and the membrane electrode assembly to the additional peripheral components, you can always perform detailed inspections with the ZEISS portfolio. Click the links below to explore our dedicated quality assurance solutions for fuel cell system applications.
Bipolar Plate
Cell quality inspectionThere are typically more than one hundred individual fuel cells in a single stack. Efficient generation of electrical energy depends on the guaranteed quality of each individual cell. The bipolar plate provides mechanical stability, ensuring the flow of media and the electrical connection between adjacent cells in the series.
Membrane Electrode Assembly
Membrane and electrode inspectionA chemical reaction in the membrane electrode assembly (MEA) is the source of electrical energy in the stack. Two electrodes are positioned on each side of the MEA and house the relevant catalysts. These electrodes are applied to both sides of the membrane (CCM) or to the respective gas diffusion layer (CCL).
Peripheral Components
Component quality inspectionMany components besides the fuel cell stack are relevant to the system. Hydrogen for the chemical reaction is transported via a piping system. Oxygen is obtained from the ambient air and treated using pumps, filters, water separators, and more. Fuel cell system efficiency depends on high component quality.
ZEISS eMobility Solutions at Every Manufacturing Step
Blue Line for the fuel cell system