Fuel Cells – Electrolyzers

Assembly Automation
for SUSTAINABLE
Energy Solutions

Assembly lines and test equipment for fuel cells
and electrolyzers

A sustainable mobility and power supply depend on new energy sources and carriers. Climate change is forcing politics, science and industry to rethink and is driving the development of innovative technologies to a considerable and sustainable level.

Hydrogen as an energy carrier and fuel cell systems as alternative forms of propulsion can pave the way to climate neutrality.

XENON is committed to proactively shaping the energy transition. As a leading automation specialist, we design and develop automation equipment for the series production of fuel cell systems.

To meet this goal, we rely on an extensive process know-how and a broad technology portfolio and cover the entire value chain: from component manufacturing to stack and system assembly.  

Hydrogen Technology & Stack Components

2 H2O → 2 H2 + O2

HOW IT WORKS

An electrolyzer uses electrical energy to split water into hydrogen and oxygen. It consists of electrodes, an electrolyte and a power supply system. During operation, water is supplied to the electrolyzer, and through the application of electric current, hydrogen ions and oxygen ions are separated. The hydrogen collects at the cathode, while the oxygen is formed at the anode.

Different systems

  • PEM: H+
  • Alkali: OH-
  • SOE: O2-

PEM electrolysis and alkaline electrolysis systems are available at an industrial scale. The solid oxide electrolysis technology is in an early development phase.

A single electrolyzer-cell can only produce a small amount of hydrogen, so many of them are connected together in a stack. If more power is required, the number of cells or stacks is also increased accordingly.

Contributing our expertise of more than 30 years in fast-cycle assembly lines and changeable production systems to the new business area and helping to solve one of the most important problems of our time is a rewarding challenge.

Dr. Hartmut Freitag
Senior Vice President, XENON Dresden

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  • Clamping/Tensioning System

    • Feeding
    • Compress
    • Tensioning/Securing
    • Screwing

  • Connection Valves

    • Assembly
    • Testing

  • End plates

    • Feeding
    • Assembly

  • Gaskets

    • Feeding
    • Dispensing
    • Printing
    • Joining
    • Handling
    • Positioning
    • Testing

  • Bipolar plate

    • Feeding
    • Forming
    • Separating
    • Injection Moulding
    • Handling
    • Positioning
    • Joining
    • Testing

  • Membrane Electrode Assembly (MEA)

    • Feeding
    • Separating
    • Handling
    • Positioning
    • Joining
    • Testing

  • Cell

    • Feeding
    • Handling
    • Positioning
    • Stacking
    • Testing

Model: TU Chemnitz - Open Source Stack

Application fields

STATIONARY
INDUSTRY supply

  • Uninterruptible Power Supply (UPS)
  • Energy and heat systems for homes
  • Industrial power supply

MOBILE
DRIVE TECHNOLOGY

  • Passenger cars
  • Commercial vehicles (CMV)
  • Buses
  • Trains
  • Ships

transPORTABLe
ENERGY Storage

  • Emergency power generators
  • Welding equipment
  • Charging systems
  • Power supply for plants and machines

Assembly and Test Automation for the entire Value Chain

As a leading automation specialist, we design and develop automation equipment
for the series production of fuel cell and electrolysis systems.

ElectrolyzerFuel Cell ElectrolyzerFuel Cell ElectrolyzerFuel Cell PEM(NT..) SOE System Assembly Stack Assembly Component Production

    STACK-ASSEMBLY

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    Automation PROCESSES

    • Feeding, positioning and stacking of the cells 
    • Apply gasket
    • Compress and tensioning of the stack
    • Assembling media connections
    • Testing for leaks
    • EOL test

    PEM

    Polymer Electrolyte Membrane Electrolysis uses a thin membrane made of thermoplastic (ionomer) as electrolyte. Anode and cathode are separated by this gas-tight membrane, only positive hydrogen ions can pass through the membrane. Due to ion migration, this process of electrolysis belongs to the acidic processes. This makes the use of precious metals necessary for the catalysts in order to avoid corrosion.

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    Advantages

    The good load change behaviour. It can react quickly to fluctuations in the energy supplied and can be operated at partial load without any problems. The efficiency of PEM electrolysis is currently around 63%, which is slightly lower than that of alkaline electrolysis. Since the technology is still relatively new, the investment costs are considerably higher than for alkaline electrolysis. The power range of the plants reaches values of up to 6 megawatts.

    SOE

    Solid Oxide Electrolysis uses a solid ceramic material as the electrolyte, which separates the two half cells. The water is fed to the reaction chambers in the form of steam. This type of electrolysis is currently in transition from research to industrial application.

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    Advantages

    This technology belongs to the high-temperature electrolysis, is operated at temperatures of 600-900 °C and can achieve a very high efficiency of over 80%. The investment costs are about the same as for PEM electrolysis. Recently, the largest SOE electrolyser in the world with a power of 250 kW was commissioned by our strategic partner Sunfire.

    COMPONENT PRODUCTION

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    Automation PROCESSES

    • Feeding and separating of the bipolar plate (BPP) and the membrane electrode assembly (MEA)
    • Forming or injection molding of the BPP

    SYSTEM ASSEMBLY

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    Automation PROCESSES

    • Feeding and assembly of peripheral components
    • System test

    High-Speed Stacking and Testing Technologies for Fuel Cells and Electrolyzers

    Maximum Speed – Maximum Accuracy & Modular Plant Concepts – Scalability on Demand

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    • Handling & Stacking

      Camera-guided handling and high-precision positioning of individual stack layers within short cycle times.

      KEY TECHNOLOGIES

      • Any Feeder
      • Cartesian System
      • SCARA Robots

    • Separating & Feeding

      Supply and separation of partly limp stack comonents
      in an automated manner.

      KEY TECHNOLOGIES

      • Palletizer
      • Coveyer System
      • Inspection and Cleaning

    • Testing & Inspection

      Seamless traceability during the whole process and final tests ensures a maximum of quality and stack performance.

      KEY TECHNOLOGIES

      • Optical Inspection
      • Leak Test
      • Electrical Test

    • Compressing & Tensioning

      Fixing and tensioning the stack through application of homogeneous force and mounting tie rods or straps.

      KEY TECHNOLOGIES

      • Stroke Force monitored Compressing
      • Screwing

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    Hide Cell Cover

    Assembly and test automation for the entire value chain

    COMPONENT PRODUCTION

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    Automation PROCESSES

    • Feeding and separating of the bipolar plate (BPP) and the membrane electrode assembly (MEA)
    • Forming or injection molding of the BPP

    STACK-ASSEMBLY

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    Automation PROCESSES

    • Feeding, positioning and stacking of the cells 
    • Apply gasket
    • Compress and tensioning of the stack
    • Assembling media connections
    • Testing for leaks
    • EOL test

    SYSTEM ASSEMBLY

    Image

    Automation PROCESSES

    • Feeding and assembly of peripheral components
    • System test

    COMPONENT PRODUCTION

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    PROCESSES

    • Feeding and separating of the bipolar plate (BPP) and the membrane electrode assembly (MEA)
    • Forming or injection molding of the BPP

    STACK-ASSEMBLY

    PROCESSES

    • Feeding, positioning and stacking of the cells 
    • Apply gasket
    • Compress and tensioning of the stack
    • Assembling media connections
    • Testing for leaks
    • EOL test

    SYSTEM ASSEMBLY

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    PROCESSES

    • Feeding and assembly of peripheral components
    • System test

    "We have to set the course so that Germany becomes the No. 1 in the world in hydrogen technologies"

    Peter Altmaier, Federal Minister for Economic Affairs and Energy

    Our key technologies for fuel cells and electrolyzers

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    Feeding

    Linear-Transfer-System, Band Transfer System, SCARA Robots, 6-axis robots

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    Stacking

    SCARA robots, 6-axis robots, Multi-axis gantry systems, High-speed pick and place systems

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    Testing

    Vision control (AOI), Quality control, Leak tests, Flow-rate tests, Electrical tests, End-of-line tests, Force and distance measurement

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    Screwing

    Plastic and metalic components

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    Dosieren

    Glue, Sealant, Lacqeur, solder paste, filling compound, chemical bond solvent, 2K material, vacuum dispensing

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    Dosieren

    Glue, Sealant, Lacqeur, solder paste, filling compound, chemical bond solvent, 2K material, vacuum dispensing

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    Komprimieren

    Laser marking, Ink jet marking, Labelling, Thermotransfer printing

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    Verspannen

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    Realisierte Projekte
    100%
    Lokale Emissionen
    >0%
    Wirkungsgrad

    Member- and Partnerships

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      Together we work with a wide range of partners from industry and research. This enables us to find new innovative approaches for a faster, more efficient and more cost-effective large-scale production of green hydrogen.

      Only through collaboration and joint efforts we will be able to continue to push the current boundaries of hydrogen technologies to reach the goal of a more sustainable future.

      • Qualität & Sicherheit

        XENON kann auf jahrelange Erfahrung der Mess- und Prüftechnik zurückgreifen. Dieses Know-how garantiert unseren Kunden perfekte Produkte und zuverlässige Qualitätssicherung und steht an erster Stelle.

      • Komplexität & Präzision

        Eine zentrale Aufgabenstellung ist es, im Zuge von oft schwierigen Montagevorgängen die Bauteilqualität und die Bauteilfunktion zu überprüfen und zu gewährleisten. Wir beherrschen

      • Erfahrung & Innovation

        Erfahrung mit den verschiedenartigsten Bauteilen und umfangreiches Know-how bei den Prozessen die zur Anwendung kommen

      Reference Projects

      Fully automated assembly of a fuel cell stack


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        Example References (TAL, ICM, ...) Evtl. Slider 

        To Do

        • Verlinkungen zu Referenzen Landingpage (TAL / ICM) (SGü, Ham)
        • Medical Veranstaltungen (Teaser Messen Medical) (SGü)
        • Videoclip TAL (SGü)
        • Bilder Kundenteile (SGü, Ham) 
        • Gesamtlayout und Texte überarbeiten
        • Medcell Informationen? (Pflichtenheft / Eigenschaften)
        • Sicherheit der Produkte und Fertigung
        • Auflistung Qualitätsstandards, QM & Sicherheit (GMP, ...)  
        • Fotos AP (SGü)
        • Innovationsthemen? (V2 - Augmented Reality)
        • Quotes von Kunden? (V2 - Ham) 

        Customer product

        Fuel cell stack

        Automation requirements

        • Handling of extremely thin material / flexible components
        • High precision in positioning the stack / individual layers
        • Mechanical centering of thin-walled fuel cells without rupture
        • Automated clamping/tensioning of the stack in the carrier
        • 100% quality and traceability
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        Would you like to learn more about our solutions
        for fuel cells and electrolyzers?
        Just give us a call.

        +49 351 40209-100

        Contact

        Your Contacts

        Peter Hammer
        Sales Manager

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