hydrogen production system 200Nm³/h
PEM Electrolyzer 200Nm³/h
Elevate your hydrogen supply with the CH-200Nm³/h PEM Electrolyzer—an advanced, scalable solution engineered for modern industry. Powered by cutting-edge Proton Exchange Membrane (PEM) technology, this system delivers ultra-pure hydrogen at 200Nm³/h, meeting the rigorous demands of sectors such as energy, chemicals, metallurgy, and mobility.
As the world pivots to greener energy alternatives, our PEM Electrolyzer stands ready to meet the growing demand for reliable, low-carbon hydrogen production.
Can be customized according to the needs of professionals.
Pem Hydrogen Generator System 10Nm³/h
| CH-200Nm³/h PEM hydrogen production system | ||
| Parameter | Unit | Value |
|---|---|---|
| Gas production | Nm³/h | 300 |
| Hydrogen production | Nm³/h | 200 |
| Operating temperature | ℃ | 5-70 |
| Hydrogen purity | % | 99.999 |
| Dew point | ℃ | -74 |
| Water quality demand | / | ASTM D1193 Type I deionized water (>10MΩ·CM) |
| Maximum stress | Mpa | 3.5 |
| Supply voltage | V | 380/10K |
| Water consumption | L/h | 200 |
| Size | mm | 6100×2400×2600 |
| Direct current consumption | kW·h/Nm³H₂ | 4.4 |
| Load regulation range | % | 5-120 |
| Application area | / | Photovoltaic off-grid hydrogen production, wind hydrogen production, cogeneration, semiconductor, multi-energy complementary micro-network and other industrial hydrogen fields |
Core Components of an PEM Electrolyzer
1. Membrane Electrode Assembly (MEA)
The MEA is the heart of PEM electrolyzer stack design. It includes:
- Catalyst-coated membrane: Usually platinum-based
- Gas diffusion layers (GDLs): Promote gas flow and distribute water evenly
- Ionomer: Facilitates proton conductivity
2. Bipolar Plates and Flow Fields
Bipolar plates manage the flow of gases and fluids. Made from coated metals or graphite composites, they:
- Channel water and gases efficiently
- Conduct electrical current
- Provide mechanical support
3. Current Collectors and Gaskets
These ensure secure electrical connections and gas-tight seals, enabling safe and reliable operation.
4. Advanced Materials for Industrial Systems
Newer PEM systems utilize:
- Corrosion-resistant alloys
- Enhanced polymer membranes
- Heat-resistant composites
These improve durability and performance in high-demand industrial settings.
The PEM Electrolyzer Working Principle (Step-by-Step)
1. Water Decomposition at the Anode
Reaction: 2H₂O → O₂ + 4H⁺ + 4e⁻ Water is fed into the anode chamber, where an applied voltage splits it into oxygen gas, protons (H⁺), and electrons.
2. Proton Transport Through the PEM
The PEM membrane selectively allows only protons to pass through to the cathode side, while blocking electrons and gases.
3. Hydrogen Generation at the Cathode
Reaction: 4H⁺ + 4e⁻ → 2H₂ Electrons from the external circuit and protons recombine at the cathode to form high-purity hydrogen gas.
4. Gas Separation and Purification
Integrated gas management systems ensure:
- Efficient O₂ and H₂ separation
- Removal of water vapor
- Delivery of fuel-cell-grade hydrogen
Key Performance Advantages for Industrial Applications
1. Higher Efficiency (75–85%)
HPEM systems outperform many alternatives with low power consumption per Nm³ of H₂.
2. Rapid Load Response
Ideal for fluctuating inputs from solar PV or wind farms, with dynamic ramping and shutoff.
3. Modular and Compact
Space-saving design enables stackable units for scalable deployment—from 100 Nm³/h to multi-MW plants.
4. Minimal Maintenance
No corrosive alkaline liquids and fewer mechanical parts lead to lower OPEX and longer system uptime.
Technical Specifications Buyers Should Evaluate
1. Current Density
Measured in A/cm². Higher densities indicate greater output per cell but may impact lifespan.
2. Hydrogen Production Capacity
Common ranges:
- Small: 1–10 Nm³/h
- Medium: 50–100 Nm³/h
- Large: >500 Nm³/h
3. Stack Lifetime and Degradation
Modern PEM stacks last 60,000–80,000 hours, depending on operating conditions.
4. Balance of Plant (BoP) Requirements
BoP includes:
- Power electronics
- Water purification units
- Thermal management
- Gas dryers and sensors
Industrial Application Case Studies
1. Renewable Hydrogen Megaprojects
Countries like Germany and Australia are scaling up PEM electrolyzer plants >100 MW to feed green hydrogen pipelines.
2. Industrial Energy Storage
PEM systems buffer excess renewable energy in steel plants and chemical factories by converting it to storable hydrogen.
3. Hydrogen for Transportation
HPEM electrolyzers produce clean H₂ for:
- Fuel-cell buses
- Trucks
- Rail and marine fleets
Frequently Asked Questions (FAQs)
Q1: What’s the lifespan of a PEM electrolyzer stack?
Modern stacks typically last 60,000–80,000 hours, depending on usage and conditions.
Q2: Is PEM electrolysis suitable for off-grid renewable systems?
Yes. Their fast startup and flexible load response make them ideal for pairing with solar and wind sources.
Q3: How pure is the hydrogen produced?
PEM electrolyzers can deliver >99.99% purity, suitable for fuel cells and industrial uses.
Q4: Are PEM systems safe to operate?
Absolutely. Built-in sensors, automated shutoff, and leak detection ensure safe and reliable performance.
Q5: What influences the cost of an HPEM system?
Major factors include:
- Stack size and material
- Pressure output
- Required BoP components
- Operating environment
Hele Titanium Hydrogen Company Profile
Expertise:
Hele Titanium Hydrogen is a leading PEM electrolyzer manufacturer in China, boasting over a decade of specialized experience in designing and producing advanced PEM electrolyzers tailored to meet the unique demands of diverse industries.
Service Scope:
The company offers end-to-end services, from design to large-scale production, ensuring clients receive high-quality, high-performance PEM electrolyzers that support their transition to sustainable energy solutions.
Customization Services:
Hele Titanium Hydrogen provides bespoke solutions, enabling adjustments to electrolyzer stack dimensions and capacity, optimization of operational parameters, selection of appropriate electrode materials and components, configuration of efficient cell structures, and additional system customization options to align with specific client requirements.
PEM Electrolyzer Product Overview
Capacity Range:
The company offers PEM electrolyzers in various capacities, including 0.01-1Nm³/h, 1-10Nm³/h, 10-50Nm³/h, 50-200Nm³/h, as well as compact models (2000-7000ml/min and 300-2000ml/min), catering to applications spanning small-scale laboratories to large industrial operations.
Applications:
These electrolyzers are widely deployed across sectors such as fuel cells, multi-energy hybrid microgrids, power plants, semiconductor manufacturing, hydrogen refueling stations, polysilicon production, chemical industries, optoelectronics, energy storage facilities, power absorption systems, and renewable hydrogen production.
PEM Electrolyzer Operating Principle & Advantages
Operating Principle:
PEM electrolyzers generate hydrogen and oxygen through water electrolysis. At the anode, an oxidation reaction produces oxygen, protons, and electrons; protons migrate via the proton exchange membrane to the cathode, where they combine with electrons to form hydrogen gas.
Advantages:
PEM electrolyzers excel in producing ultra-pure hydrogen, operating with high efficiency, and offering rapid response times. They are ideally suited for integration with renewable energy sources (e.g., wind, solar), advancing global decarbonization efforts and enabling the transition to a low-carbon future.
Key Considerations for Selecting PEM Electrolyzers
Hydrogen Production Requirements:
Define required hydrogen volume, purity, and pressure to select the appropriate electrolyzer model.Input Power Specifications:
Evaluate current and voltage requirements to ensure alignment with production scale and application needs.System Design & Configuration:
Assess critical components (e.g., proton exchange membrane, gas diffusion layer, catalyst layer) to guarantee system efficiency and durability.Manufacturer Reputation:
Partner with reputable manufacturers delivering reliable, high-quality electrolyzers and comprehensive after-sales support.Customization Options:
Inquire about tailor-made solutions to address specific operational demands.
Hele Titanium Hydrogen’s Commitment & Strengths
One-Stop Solutions:
Beyond premium PEM electrolyzers, Hele Titanium Hydrogen provides detailed product proposals, seamless logistics, and expert installation assistance.
Strategic Partnerships:
Collaborating with Hele Titanium Hydrogen means gaining a partner dedicated to the success of your hydrogen generation project, offering end-to-end support from design and planning to delivery and installation.
Client-Centric Solutions:
The company delivers customized hydrogen generation solutions for wholesalers, brand owners, manufacturers, suppliers, laboratories, and individual users, accommodating diverse scales and requirements.
CH-200Nm³/h PEM Electrolyzer: High-Efficiency Hydrogen Production for Industrial Applications
Elevate your hydrogen supply with the CH-200Nm³/h PEM Electrolyzer—an advanced, scalable solution engineered for modern industry. Powered by cutting-edge Proton Exchange Membrane (PEM) technology, this system delivers ultra-pure hydrogen at 200Nm³/h, meeting the rigorous demands of sectors such as energy, chemicals, metallurgy, and mobility.
Key Features and Advantages
Ultra-Pure Hydrogen: Achieve 99.999% purity with a dew point below -74°C, ensuring compatibility with the most sensitive applications, from semiconductor manufacturing to fuel cell supply.
High Efficiency & Low Consumption: Industry-leading energy consumption at just 4.4 kWh/Nm³ H₂, reducing operational costs and supporting your sustainability goals.
Rapid Response & Flexible Operation: Full load regulation from 5% to 120% and cold start in under 5 minutes—ideal for integration with renewable energy sources and dynamic production environments.
High Pressure Output: Delivers hydrogen at up to 3.5 MPa, minimizing the need for additional compression and simplifying downstream processes.
Robust & Reliable: Designed for continuous, stable operation with minimal maintenance. Integrated safety systems include hydrogen leak detection, emergency stop, and interlock protection.
Compact, Modular Design: Space-saving footprint (6100×2400×2600 mm), factory-assembled, and pre-tested for plug-and-play installation—indoor or outdoor.
Remote Monitoring: Advanced instrumentation and remote control capabilities for seamless integration into your plant’s automation and safety systems.
Customizable Solutions: Tailored stack sizes, materials (including titanium anodes), and control systems to meet your specific process and site requirements.
Versatile Applications
The CH-200Nm³/h PEM Electrolyzer is trusted by leading companies for:
Renewable hydrogen production (solar, wind, off-grid)
Chemical feedstock (ammonia, methanol, fertilizer)
Steel and glass manufacturing
Semiconductor and electronics production
Hydrogen fueling stations and mobility
Grid stabilization, energy storage, and microgrids
Why Choose the CH-200Nm³/h PEM Electrolyzer?
Maximize operational uptime and safety with a proven, factory-integrated solution.
Lower your carbon footprint and energy costs with best-in-class efficiency.
Future-proof your hydrogen supply with a system designed for easy scaling and integration.
About Hele Titanium
As a leader in hydrogen technology, Hele Titanium specializes in advanced PEM electrolyzers featuring premium materials and innovative engineering. Our solutions are trusted worldwide for reliability, efficiency, and service excellence.
Partner with Hele Titanium to power your operations with clean, reliable hydrogen. Contact our team today to discuss your project requirements and discover how the CH-200Nm³/h PEM Electrolyzer can transform your energy strategy.
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PEM waterelectrolysishydrogen production system200Nm’/h
Can be customized according to theneeds of professional
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Common Questions
Most Popular Questions.
PEM waterelectrolysishydrogen production system.
Can be customized according to the needs of professional.
It is a new technology ofnational energy strategy and aworld-leading technology for hydrogen production. Byproton exchange membrane pure water, hydrogen gaswith a purity of up to 99.999% can be rapidly produced
A: Yes, we are a professional manufacturer and our engineers have wide experiences.
Yes, we welcome sample order to test and check quality. Mixedsamples are acceptable. Also accepted OEM/ODM service.
A: Yes, if you have other needs, you can contact us and we would try our best to help you.
A: We cooperated with DHL, UPS, Fedex, EMS, TNT and China Air Post etc. We would recommend to you according to the destination, the quantity and weight. You also can contact your appointed forwarder/agent to arrange shipment.
A: For most products, we provide 6 months warranty. We would give you new one accessories Free of Charge during the guaranty period, or to be negotiated until you are satisfied.
Custom Your PEM Electrolyzer with Easy!
No matter the specific PEM electrolyzer requirements you have, our vast expertise enables us to produce it for you. Notably, as we create our own raw materials, we have the advantage of delivering superior quality control and more competitive pricing compared to our worldwide competitors.
