Containerized PEM Electrolyzer for Outdoor Green Hydrogen Production
The Containerized PEM Electrolyzer is designed for outdoor hydrogen production, remote sites, renewable hydrogen projects, mobile hydrogen supply, and rapid deployment applications. It integrates the PEM electrolyzer system, BoP equipment, control cabinet, ventilation, safety protection, and service access into a containerized layout for easier site installation and project delivery.
10–300+ Nm³/h
Scalable Capacity
Containerized Layout
Integrated System
Outdoor & Remote Sites
Rapid Deployment
Custom BoP
Ventilation & Safety
Is a Containerized PEM Electrolyzer Right for Your Project?
A containerized PEM electrolyzer is suitable when the project requires outdoor installation, faster site deployment, integrated BoP layout, weather-protected equipment, or a movable hydrogen production platform.
Best Fit For
- ✔ Outdoor hydrogen production projects
- ✔ Renewable hydrogen generation
- ✔ Remote or off-grid sites
- ✔ Rapid deployment hydrogen projects
- ✔ Mobile or temporary hydrogen supply
- ✔ Demonstration and pilot hydrogen stations
- ✔ Industrial sites with limited indoor equipment space
- ✔ Projects requiring integrated BoP and container layout
Not Ideal For
- ✖ Small laboratory or education-only projects
- ✖ Benchtop or compact indoor testing systems
- ✖ Projects with very limited container placement space
- ✖ Applications requiring only a standalone PEM stack
- ✖ Sites without suitable ventilation, drainage, power, and safety preparation
- ✖ Projects where a compact cabinet or indoor skid is more practical
Engineering Note
If your project requires compact laboratory hydrogen generation, the S-Series may be more suitable. If your project requires indoor skid-mounted hydrogen production, the H-Series, C-Series, or M-Series may be reviewed. If outdoor installation, site mobility, or integrated container layout is required, the Containerized PEM Electrolyzer is usually the better option.
Containerized PEM Electrolyzer Configuration Overview
The Containerized PEM Electrolyzer provides a customizable outdoor hydrogen production platform for renewable hydrogen projects, remote sites, industrial hydrogen supply, and rapid deployment applications. Hele Titanium can review containerized PEM electrolyzer configurations from 10–200 Nm³/h hydrogen production according to project capacity, power source, water quality, outlet pressure, site environment, container layout, safety requirements, and documentation needs.
| Parameter | Unit | Containerized PEM Electrolyzer Configuration |
|---|---|---|
| Product Type | / | Containerized PEM Electrolyzer Production System |
| Custom Hydrogen Production Range | Nm³/h | 10–200 |
| Reference Model | / | CH-200Nm³/h |
| Gas Production Rate | Nm³/h | 15–300, depending on hydrogen production capacity |
| Hydrogen Production Rate | Nm³/h | 10–200 customizable |
| Operating Temperature | °C | 5–65 |
| Hydrogen Purity | % | Up to 99.999, according to system configuration |
| Dew Point | °C | -70 |
| Feed Water Quality Requirement | / | ASTM D1193 Type I Deionized Water (>10 MΩ·cm) |
| Maximum Allowable Pressure | MPa | 3.0 |
| Power Supply Voltage | V | 380 / 10kV, reviewed according to system capacity and project power conditions |
| Container / System Dimensions | L×W×H mm | Project-specific; CH-200 reference: 6100×2400×2600 |
| DC Power Consumption | kW·h/Nm³ H₂ | 4.4 reference value |
| Wide Power Range | % | 20–120 |
| System Format | / | Containerized layout with PEM electrolyzer, BoP, control system, ventilation, safety protection, piping, wiring, and service access |
| Typical Application Fields | / | Off-grid photovoltaic hydrogen production; wind-powered hydrogen generation; cogeneration (CHP); semiconductor industry; integrated multi-energy independent micro |
Engineering Note
The above specifications represent the typical configuration range for Hele Titanium containerized PEM electrolyzer systems. The CH-200Nm³/h model can be used as a reference configuration, while final hydrogen output, gas production rate, outlet pressure, power supply voltage, container layout, cooling method, BoP configuration, monitoring system, safety design, and documentation package should be reviewed according to actual project requirements.
Buyer Note: For containerized PEM electrolyzer quotation, please provide your required hydrogen production rate, operating hours, outlet pressure, hydrogen purity, power source, water quality, site environment, ambient temperature, container placement conditions, downstream use, destination country, and delivery schedule.
Outdoor Hydrogen Production Requires More Than a Container
A containerized PEM electrolyzer is not just an electrolyzer placed inside a container. It requires proper layout planning, ventilation, thermal management, water treatment, power integration, gas handling, safety design, access space, and site interface review.
For renewable hydrogen, remote site, and rapid deployment projects, system reliability depends on how the PEM electrolyzer, BoP equipment, cooling system, water circuit, control cabinet, ventilation, safety devices, and container layout work together. Hele Titanium reviews containerized configurations according to hydrogen output, operating profile, power source, water quality, ambient condition, site utilities, safety requirements, logistics, and documentation needs.
1. Outdoor Installation Readiness
Designed for projects requiring weather-protected hydrogen production equipment and site-based operation.
2. Integrated Container Layout
Electrolyzer, BoP, control system, ventilation, safety utilities, and service access can be planned within the container.
3. Rapid Deployment Support
Pre-assembled and factory-reviewed configurations can help simplify project installation and commissioning planning.
4. Site Interface Matching
Power, water, cooling, hydrogen outlet, oxygen venting, drainage, access, and safety distance should be reviewed before delivery.
Typical Use Cases for Containerized PEM Electrolyzers
The Containerized PEM Electrolyzer is suitable for hydrogen projects where outdoor installation, integrated system layout, mobility, renewable power connection, or fast project deployment is required.
Renewable Hydrogen Production
Hydrogen Use: Green hydrogen production connected with solar, wind, hybrid renewable power, or low-carbon energy systems.
Recommended Configuration: Containerized PEM electrolyzer with power input review and integrated BoP layout.
Key Review Factors: Power fluctuation, operating profile, hydrogen storage, cooling, water quality, safety, and grid interaction.
Remote Site Hydrogen Supply
Hydrogen Use: Hydrogen generation for remote facilities, isolated energy systems, off-grid projects, or difficult-to-access sites.
Recommended Configuration: Containerized PEM electrolyzer with outdoor protection and site utility matching.
Key Review Factors: Power availability, water supply, ambient condition, logistics, maintenance access, and system reliability.
Rapid Deployment Hydrogen Projects
Hydrogen Use: Hydrogen production for pilot demonstration, temporary hydrogen supply, or projects requiring faster on-site installation.
Recommended Configuration: Pre-assembled containerized PEM electrolyzer system.
Key Review Factors: Container layout, factory testing, transport, site foundation, utility connection, and commissioning plan.
Hydrogen Refueling Demonstration
Hydrogen Use: Hydrogen generation for mobility demonstration, refueling support, or station pilot projects.
Recommended Configuration: Containerized PEM electrolyzer with storage and compression interface review.
Key Review Factors: Outlet pressure, compressor interface, hydrogen purity, storage, safety, ventilation, and control integration.
Industrial Outdoor Hydrogen Supply
Hydrogen Use: Outdoor hydrogen production for industrial users where indoor equipment room space is limited.
Recommended Configuration: Containerized PEM hydrogen production system with project-specific BoP integration.
Key Review Factors: Hydrogen output, operating hours, downstream use, ambient condition, site utilities, and documentation.
Mobile or Relocatable Hydrogen Supply
Hydrogen Use: Hydrogen generation for projects that may require relocation, modular deployment, or flexible site operation.
Recommended Configuration: Containerized PEM electrolyzer with transport and service layout review.
Key Review Factors: Container size, lifting or transport plan, utility reconnection, safety interface, and packing requirements.
From PEM Stack to Containerized Hydrogen Production System
The PEM stack is the hydrogen generation core, but a containerized PEM electrolyzer also requires integrated BoP, container layout, ventilation, power supply, water system, gas-liquid separation, cooling, control logic, and safety protection for outdoor operation.
Containerized PEM Electrolyzer System Architecture
System Flow & Integration
PEM Stack
The electrochemical core where purified water is converted into hydrogen and oxygen.
Container Layout
Organizes electrolyzer equipment, BoP, control cabinet, piping, wiring, ventilation, and service access inside the container.
Water Treatment & Circulation
Supports DI water supply, filtration, circulation, conductivity review, and water stability.
Power Supply & Rectifier
Controls electrical input, voltage-current behavior, renewable coupling, and operating response.
Gas-Liquid Separation
Separates hydrogen and oxygen from water and supports drying, purification, pressure control, and downstream use.
Ventilation, Cooling & Safety
Supports heat management, hydrogen detection, ventilation, oxygen venting, pressure protection, emergency shutdown
Engineering Note:
Final containerized system configuration should be reviewed according to hydrogen output, pressure, purity, power source, water quality, ambient temperature, cooling load, ventilation, site interface, downstream use, and documentation needs.
Customize the Containerized PEM Electrolyzer Around Your Site
Containerized PEM electrolyzer projects require site-specific review. Hele Titanium can support layout, BoP, ventilation, control, safety, and documentation review according to outdoor, remote, renewable, or industrial hydrogen project needs.
1. Hydrogen Output & Expansion
Review required Nm³/h, daily hydrogen demand, operating hours, peak demand, and future expansion plan.
2. Container Layout Design
Review equipment arrangement, service aisle, ventilation openings, control cabinet position, piping, wiring, and maintenance access.
3. Power & Renewable Input
Review grid power, solar, wind, hybrid power, rectifier, power fluctuation, and operating strategy.
4. Water, Cooling & Utility
Review DI water supply, water treatment, cooling method, drainage, heat load, ambient condition, and site utilities.
5. Gas Handling Interface
Review hydrogen outlet, oxygen venting, storage, compressor interface, pressure, purity, and downstream use.
6. Safety & Site Integration
Review hydrogen detection, ventilation, emergency shutdown, pressure relief, access control, site layout, and local project requirements.
What to Confirm Before Requesting a Containerized PEM Quote
A clear RFQ helps our engineering team review whether a containerized PEM electrolyzer is suitable for your hydrogen project and site conditions.
| Selection Factor | What to Confirm |
|---|---|
| Application | Renewable hydrogen, outdoor hydrogen production, remote site, refueling support, industrial outdoor supply, or rapid deployment |
| Hydrogen Output | Required Nm³/h, daily hydrogen demand, peak demand, operating hours, or expansion plan |
| Hydrogen Purity | Standard purity or higher downstream purity requirement |
| Outlet Pressure | Required pressure for storage, compressor, refueling support, process use, fuel cell, or downstream connection |
| Power Source | Grid power, solar, wind, hybrid power, voltage, phase, power stability, or renewable fluctuation |
| Water Quality | DI water source, conductivity, water treatment, circulation, and supply stability |
| Cooling Condition | Cooling water, chiller, ventilation, ambient temperature, heat load, and outdoor climate |
| Installation Site | Outdoor site, remote site, renewable energy site, industrial plant, hydrogen station, or temporary location |
| Container Requirement | ISO container size, layout preference, access doors, ventilation, service aisle, lifting, and transport needs |
| Operating Profile | Continuous, intermittent, renewable-coupled, scheduled, standby, or demonstration operation |
| Downstream Interface | Storage tank, compressor, process equipment, fuel cell, refueling system, or gas distribution line |
| Control Requirement | Local control, HMI, PLC, alarm, data logging, remote monitoring, SCADA / DCS interface, or cloud monitoring |
| Safety Requirement | Hydrogen detection, ventilation, pressure relief, emergency shutdown, oxygen venting, alarms, and interlocks |
| Documentation | Datasheet, container layout drawing, P&ID, wiring diagram, manual, FAT report, inspection record, certificate, or project documents |
| Destination | Country, shipping port, packing requirement, import requirement, site delivery condition, and delivery schedule |
"A strong inquiry should not only say 'Please quote a containerized PEM electrolyzer.' A better request is: 'We need a containerized PEM electrolyzer for [application], with [hydrogen output], [purity], [pressure], [operating hours], [power source], [water quality], [site environment], [container requirement], and [control or safety requirements].'"
Testing & Documentation Support for Containerized PEM Electrolyzers
The reliability of a containerized PEM electrolyzer depends on every detail—stack assembly, system layout, sealing, pressure control, electrical behavior, water circuit design, cooling, ventilation, gas handling, control logic, safety interlocks, and final documentation. Testing and documentation support helps each unit be reviewed, traceable, and ready for project delivery.
1. Stack Assembly & Sealing
Verify stack alignment, torque sequence, sealing condition, interface connection, and compression. Ensure seals and gaskets are correctly installed for long-term leak-free performance.
2. Pressure & Leak Testing
Perform hydrostatic or pneumatic checks on water, gas, and cooling circuits. Detect leaks and confirm pressure control accuracy according to the agreed inspection scope.
3. Electrical & Control Testing
Check insulation, grounding, wiring continuity, voltage-current behavior, PLC / HMI response, alarm logic, and control signal integrity for stable system operation.
4. Container Layout & Utility Check
Inspect container layout, piping, cable routing, ventilation, lighting, service access, drainage, and utility interfaces for safe operation and maintainability.
5. Safety System Verification
Test emergency stop, alarms, interlocks, gas detection, ventilation linkage, oxygen venting, and pressure protection to support personnel and equipment safety.
Documentation Package
We provide complete documentation to support project delivery, regulatory compliance, and long-term operation.
Compare Containerized PEM Electrolyzer with Other Options
A containerized PEM electrolyzer is best for outdoor, remote, renewable, and rapid deployment projects. For indoor laboratory, pilot, or industrial skid-mounted use, other PEM electrolyzer series may be more suitable.
| Series | Capacity Range | Best For | Recommended When |
|---|---|---|---|
| S-Series Compact | 0.01–1 Nm³/h | Laboratory, R&D, education, small pilot | You need compact hydrogen output and flexible testing use. |
| H-Series Mid-Range | 1–10 Nm³/h | On-site supply, microgrids, pilot industrial | You need mid-range hydrogen output and stable skid-mounted operation. |
| C-Series Industrial | 10–50 Nm³/h | Industrial supply, refueling support, process | You need continuous industrial hydrogen production and stronger BoP integration. |
| M-Series High-Capacity | 50–300+ Nm³/h | Large projects, utility storage, multi-skid | You need modular high-capacity hydrogen production. |
| Containerized PEM | 1–300+ Nm³/h scalable | Outdoor, remote, renewable, rapid deployment | You need containerized layout, |
Containerized PEM Electrolyzer FAQ
Answers for renewable hydrogen developers, remote site operators, industrial users, EPC firms, hydrogen station developers, system integrators, and procurement buyers evaluating containerized PEM electrolyzer systems.
1. What is a containerized PEM electrolyzer used for?
2. What hydrogen output range can a containerized PEM electrolyzer support?
3. What is included in a containerized PEM electrolyzer system?
4. Is a containerized PEM electrolyzer suitable for outdoor installation?
5. Can a containerized PEM electrolyzer work with solar or wind power?
6. What is the difference between a skid-mounted and containerized PEM electrolyzer?
7. Can the container layout be customized?
8. What site information is needed before design?
9. What documentation can be provided?
10. What information is needed for quotation?
Need a Containerized PEM Electrolyzer for Your Hydrogen Project?
Share your required hydrogen output, pressure, purity, power source, water quality, installation site, and container layout needs. Hele Titanium can help review a suitable containerized PEM system configuration.
What We Can Help Review
- 10–200 Nm³/h system configuration
- Container layout and BoP integration
- Outdoor site, power, water, cooling, and safety requirements
- Testing, documentation, and delivery support
