NEA|HYTRON PEM Electrolyzer

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.