Pem electrolyzers for efficient hydrogen production

Transform fluctuating renewable energy into storable, high-purity hydrogen with advanced electrolyzers that ensure precise control over production, making them indispensable for stable, clean energy solutions.

Produces High-Purity Hydrogen via Electrolysis

The NEA|HYTRON PEM Electrolyzers from Neuman & Esser are designed to produce high-purity hydrogen through a modular electrolysis system. Utilizing a Balance of Plant approach, they ensure efficient conversion of electricity to hydrogen, optimizing water and thermal management for consistent performance. Ideal for hydrogen mobility, chemical manufacturing, and renewable energy storage, these systems produce up to 1,000 Nm³/h of hydrogen with purity levels reaching 99.9999%. Integrated power electronics and fully automated operation allow seamless integration into existing production lines. Housed in ISO container systems, they offer scalable solutions with enhanced safety features and remote monitoring through the NEA|XPLORE platform. These electrolyzers support sustainable energy applications by producing green hydrogen, essential for decarbonizing various sectors.

Benefits

  • Enables energy-efficient hydrogen production, reducing operational costs.
  • Adapts to fluctuating energy inputs, ideal for renewable integration.
  • Guarantees consistent high-purity hydrogen for critical applications.
  • Minimizes installation time and space requirements with a modular, containerized design.
  • Enhances system reliability with remote monitoring and automated safety features.

General


Applications
Fuel cell technology,Energy storage system,Chemicals,Gas,Ammonia production,General industrial use,Oil,Hydrogen mobility,Biogas upgrading plants,Production of synthetic fuels,Renewable energies,Hydrotreating of fuels
End products
Upgraded biogas,H2-powered industrial heaters,Green synthetic gasoline,Glass products,Hydrogen fuel for vehicles,Hydrogen-infused natural gas for inter-industry processes,Co2-neutral industrial heating,Stationary fuel cells for buildings,Low-sulfur diesel,Portable power systems,Hydrogen-powered forklifts,Green ammonia,Carbon-neutral steam for chemical processes,Carbon-neutral jet fuel,Fertilizers,Green synthetic diesel
Steps before
Water Demineralization,Site Evaluation,Feasibility Study,Engineering and Construction,Commissioning,Renewable Energy Integration
Steps after
Gas Treatment,Hydrogen Gas Purification,Quality Analysis,Energy Storage,Trading of Gases,Hydrogen Supply Integration
Input ingredients
water,electrical energy,demineralized water,ultrapure water
Output ingredients
hydrogen,oxygen,high purity hydrogen,green hydrogen,emission-free hydrogen
Market info
Neuman & Esser Group is known for its expertise in manufacturing compressors and grinding systems. They hold a strong reputation for providing durable, high-quality engineered-to-order equipment, particularly in the oil and gas, chemical, and energy industries.

Technical Specifications


Hydrogen Production per Module
10 – 1,000 Nm³/h
Hydrogen Purity
99.9% – 99.9999%
Nominal Discharge Pressure (H2)
10 – 30 bar(g)
Nominal Discharge Pressure (O2)
4 bar(g)
Power Consumption per Module
50 kW – 5.0 MW
Operation Range
20/30 – 100%
Typical Availability
97.2%
Footprint
Mounted in ISO 20’ or 40’
Water Supply
20 L/kg H2
High Purity Water Consumption
10 L/kg H2
System Design Lifespan
25 years

Operating Characteristics


Working Mechanism
Water Electrolysis
Integrated Steps
Power Electronics,Water Treatment,Thermal Management,Purification,and Gas Analysis
Automation Level
Fully Automated
Batch vs. Continuous Operation
Continuous
Self-Protecting System
Balance of Plant (BoP)
Scalability
Modular Design
Containerization
ISO 20’ or 40’,High Cube Containers

Material Compatibility


Density/particle size
0.5–2.5 g/cm³ / 50–1000 µm

Physical Characteristics


Footprint
ISO 20' or 40' high cube containers
Container Type
Modular,containerized system
Control Panel Type
Automated system with NEA|XPLORE platform
Discharge Pressure
H2
Water Consumption
20 L/kg H2
High Purity Water Consumption
10 L/kg H2

Custom Options


Integration with renewable energy
Yes
Modular design
Yes
Containerized system
ISO 20’ or 40’ high cube containers
Automated system monitoring
NEA|XPLORE cloud platform
System customization
Hydrogen purity adjustment