NEA|HYTRON PEM Electrolyzer

NEUMAN & ESSER

  • Modular and containerized PEM electrolyzer
  • High plant availability and low production costs due to optimized integration of stacks in balance-of-plant
  • High design flexibility for customized indoor and outdoor configurations in standardized containerized solution for operation from -20° to 40°C
  • Kits available for demanding conditions, e.g. low noise option, high purity option
  • See XPLORE, the H2 operation & field service app, providing 360° service for interruption-free and smart operation.

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NEA|HYTRON PEM electrolyzer

  • NEUMAN & ESSER liefert voll integrierte Lösungen für die Wasserstofferzeugung, -verdichtung und -abfüllung. Für die Wasserstoffproduktion ist der NEA|HYTRON PEM-Elektrolyseur das etablierte Produkt von NEA. Die Systeme bestehen aus folgenden Modulen
  • Leistungselektronik - regelt das Spannungsniveau und wandelt den Wechselstrom in Gleichstrom um, der für die Stacks benötigt wird
  • Wasseraufbereitungsmodul - behandelt das Wasser zu demineralisiertem (DM) Wasser, um eine lange Lebensdauer des Stacks zu gewährleisten
  • Thermal Management Module - stellt den optimalen Betriebstemperaturbereich der PEM-Stacks sicher und hat damit einen großen Einfluss auf die Systemeffizienz

Key features

  • Modular electrolysis system: 50 kW – 5 MW
  • Hydrogen production: 10 Nm3/h – 1,000 Nm3/h per module
  • H2 nominal discharge pressure: 30 bar(g)
  • O2 nominal discharge pressure: 4 bar(g)
  • H2 purity: 99.9% – 99.9999%
  • O2 purity: 98%
  • Operation range: 20/30 – 100% (depending on the module size)
  • Typical availability: 97.2%
  • Footprint: mounted in ISO 20’ or 40’, of type ISO high cube containers
  • Water supply: 20 L/kg H2
  • High purity water consumption: 10 L/kg H2
  • System design for 25 years of operation
  • System developed and project executed by our team with more than 100 years of experience in hydrogen projects
  • Simple installation and scalability thanks to the modular design of the system
  • Consideration of limited space thanks to containerized system- the status of the system is continuously monitored using our NEA|XPLORE cloud platform
  • If required, the system supplies hydrogen of the highest purity, e.g. for mobility applications
  • Delivery of the complete system, including engineering, equipment and control
  • Ensuring the smooth operation of the system by our service

System video

Application areas

  • Hydrogen Mobility: Hydrogen is used in many mobility applications. In heavy goods transport, it has the potential to decarbonize this sector.
  • Fuel Cell Technology: Hydrogen fuel cells are used under many different conditions, e.g. to supply buildings with electricity and heat or to power vehicles with a longer range.
  • Energy Storage System: Hydrogen is suitable for storing green energy for months at a time. Compared to batteries, large amounts of energy can be stored much more cheaply.
  • Ammonia Production: The Haber-Bosch process can be used to produce ammonia for the fertilizer industry or for energy transport. The starting point of the Haber-Bosch process is hydrogen and nitrogen.
  • Hydrotreating of Fuels: Fuels are processed by hydrotreating. The process is currently the main consumer of hydrogen in Germany.
  • Production of Synthetic Fuels: The production of carbon-neutral e-fuels requires green hydrogen as a starting point.
  • General Industrial Use: The production of glass, food, chemicals, pharmaceuticals and other industrial products requires high temperatures, which can be generated in a CO2-neutral way by burning hydrogen.
  • Purification and Gas Analysis Module - removes impurities in the hydrogen stream and analyzes the quality of hydrogen and oxygen to continuously monitor the health of the system
  • Safety Module- ensures safe operation of the system
  • Supply Equipment- for a turnkey solution, the compressed air supply for the instrumentation, a chiller, the nitrogen supply for inerting the system, etc. must already be integrated into the system

Project cases

  • Mobility use case: local municipality planned to decarbonize a bus fleet and required bus terminal for 12 H2-powered fuel cell buses, saving 1,500t CO2 per year.
  • Industry Use Case: Industrial company requiring steam boiling for technical processes to become independent from fossil energy carrier. NEA GROUP developed and engineered full-scope sector coupling project including electrolysis and utilization of excess heat and O2. Savings of 1,600 CO2 through sector coupling.

Contact us

  • Fill out the contact vendor form to contact the vendor.
Type of Electrolyser PEM
Max Ambient Temperature (in °C) 40
Min Ambient Temperature (in °C) -20
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99% of all inquiries get answered within 5 days. Your inquiry will be sent immediately to the right person within the vendor organisation.

By ticking the checkbox, you consent to the collection and storage of the data you have provided for the purpose of contacting and answering your request in accordance with our Privacy Policy. You can revoke your consent at any time by sending an email to bye-bye@hyfindr.com.

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