Quality Assurance For
Hydrogen Technology
ZEISS Power & Energy Solutions
![Precision in Green Power Quality Solutions]({"small":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_green_energy_1920_1080.ts-1708931902002.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=640&s=4769f8a0a28af4c1a044a5ffbe76f275","large":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_green_energy_1920_1080.ts-1708931902002.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1280&s=367035e022ebbbb82fc97861185553dc","medium":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_green_energy_1920_1080.ts-1708931902002.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=832&s=748758f23cb11baea27c6edf2b4cb210","full":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_green_energy_1920_1080.ts-1708931902002.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1920&s=6d364e8cb19fd966a9888f158f2608f6"} "Precision in Green Power Quality Solutions")
Precision in Green Power Quality Solutions
Early detection ensuring safety and efficiencyHydrogen is a key component in the transition to renewable energy and in achieving global net-zero targets. Producing green hydrogen with electrolyzers and hydrogen storage will fundamentally change the energy market by enabling new uses for excess wind and solar power generation, long-term energy storage and replacement of fossil fuels. To ensure that these technologies can be operated efficiently and safely, quality assurance plays a crucial role. With ZEISS Quality Solutions, deviations and irregularities can be detected early in the laboratory or later in production and operation. Explore our portfolio for more information.
Unlocking electrolyzer potential
![]({"small":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/analysis-of-membranes_1920_1080.ts-1709902763773.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=640&s=55fd696baeae7ba6de04d6b7e8830eb2","large":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/analysis-of-membranes_1920_1080.ts-1709902763773.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1280&s=81ff7a7330f8697f6738898e689fedac","medium":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/analysis-of-membranes_1920_1080.ts-1709902763773.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=832&s=5298fce9dafc857002671b55e4315825","full":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/analysis-of-membranes_1920_1080.ts-1709902763773.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1920&s=698b81e732c47a2fbebef8d957f1e31a"})
Analysis of membranes, compositions, seals, coatings, and solid material
Metrology and advanced materials analysis techniques, such as light and electron scanning microscopy, ensure bipolar plates, membranes, and coatings to meet the appropriate performance requirements. ZEISS Energy Solutions provides a comprehensive understanding of the different materials that improve the performance, reliability, and lifetime of electrolyzers.
![]({"small":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_bipolarplate_1920_1080.ts-1708931901799.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=640&s=5aa70e1c23541121b8562cbe4e8fd734","large":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_bipolarplate_1920_1080.ts-1708931901799.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1280&s=2f566c080e7ca25003c5e7f8fe6a265a","medium":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_bipolarplate_1920_1080.ts-1708931901799.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=832&s=e254d16e21defbc91c9b70687b16241a","full":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/zeiss_overview_power_energy_bipolarplate_1920_1080.ts-1708931901799.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1920&s=68de039b9a6256b74b1b138a14808bad"})
Bipolar plate inspection
In electrolysis stacks, bipolar plates are important for the guided flow of water, oxygen, and hydrogen. The geometry of the surfaces and the leak-tightness between the individual sheets are critical. Therefore, the flow field structure and the sealing area need to be inspected to ensure the geometrical dimension for the functional aspects as well as for the stacking process.
![]({"small":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_1920_1080.ts-1709902763845.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=640&s=b6d3cf9918f06c3e0d2ea17477a35406","large":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_1920_1080.ts-1709902763845.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1280&s=2a94905b6544120adbc615d16a168d97","medium":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_1920_1080.ts-1709902763845.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=832&s=fe4cc5341ce2aa53790e291c9c71d792","full":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_1920_1080.ts-1709902763845.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1920&s=65b2c4b10366a9574d856ff3d89a88e3"})
Cell frame
The cell frame includes flow fields, openings, and sealings to fix the membrane in a defined position for separation and to seal the different sections within the stack. This is to guarantee the purity of hydrogen and prevent to materials from mixing. Cover plates and cell frames need to be inspected in terms accuracy and dimension to ensure accurate stacking and tightness of the stack.
![]({"small":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_bipolarplate_stack_02_1920_1080.ts-1709902763975.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=640&s=0cfa4df7a726a2606720b845270f1b75","large":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_bipolarplate_stack_02_1920_1080.ts-1709902763975.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1280&s=04b3d3b98b8819b0409f2ccdd0ecd307","medium":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_bipolarplate_stack_02_1920_1080.ts-1709902763975.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=832&s=a5224cfdbe82a244429b213d2d05f802","full":"https://images.zeiss.com/metrology/solutions/power-energy/hydro-turbines/cell_frame_bipolarplate_stack_02_1920_1080.ts-1709902763975.jpg?auto=compress%2Cformat&fm=png&ixlib=java-1.1.11&w=1920&s=9c7608c3c4c2178df176e42e977aae51"})
Stack deformation testing
Analyzing the system and design can provide additional information and potential for improvement. The system can be monitored with other media in a test environment or in actual operation to examine the deformation and heat distribution of the stack in operation. The position of the sealing and the deformation under load are important information. Discover the opportunities of ZEISS Quality Solutions.