Photovoltaic Hydrogen Production Demonstration Kit
A compact hands-on teaching kit for demonstrating the complete solar-to-hydrogen-to-electricity cycle. It integrates photovoltaic power generation, PEM water electrolysis, hydrogen storage, fuel cell power generation, and load simulation to help.
Hands-On Learning for Renewable Energy and Hydrogen Technology
The Photovoltaic Hydrogen Production Demonstration Kit is a compact teaching system designed to help students understand the full cycle of solar-to-hydrogen energy conversion. It integrates photovoltaic power generation, PEM water electrolysis, hydrogen fuel cell power generation, and load demonstration in one interactive learning platform.
It is suitable for STEM education, vocational training, university laboratories, renewable energy courses, and hydrogen technology programs.
Solar-to-Hydrogen Demonstration
Shows how photovoltaic power can drive PEM water electrolysis to produce hydrogen and oxygen.
Transparent Learning Structure
Transparent components allow students to observe gas generation, flow, separation, and collection.
Fuel Cell Power Output
The hydrogen fuel cell converts stored hydrogen into electricity to power a small fan load.
Experiment and Data Support
Voltage, current, light intensity, hydrogen output, and load response can be used for classroom experiments and reports.
How the Solar-to-Hydrogen Demonstration Works
The kit is designed to visually demonstrate a complete renewable energy conversion cycle: solar energy is converted into electricity, electricity produces hydrogen, and hydrogen is converted back into electrical power.
Solar Energy Conversion
The photovoltaic panel generates DC electricity under light and powers the PEM electrolyzer.
PEM Water Electrolysis
The PEM electrolyzer splits water into hydrogen and oxygen. Hydrogen is collected and temporarily stored.
Hydrogen Fuel Cell
Stored hydrogen is supplied to the hydrogen fuel cell, which generates electricity to power a small fan load.
Educational Loop: This creates a complete “solar → hydrogen → electricity” demonstration loop for renewable energy education.
Core Modules & Features
The demonstration kit integrates photovoltaic generation, PEM electrolysis, hydrogen fuel cell power generation, monitoring, and load simulation in a compact classroom-friendly layout.
Photovoltaic Power Generation Module
- High-efficiency monocrystalline solar panel with efficiency ≥20%
- Simulates real-world light conditions
- Real-time monitoring of voltage and current
- Adjustable light intensity to observe system behavior under different irradiance levels
PEM Water Electrolysis Module
- Integrated PEM electrolyzer with 60 mL/min hydrogen production capacity
- Transparent design shows gas generation and flow
- Demonstrates dynamic electrolysis process
- Clearly visualizes hydrogen and oxygen separation through the proton exchange membrane
Hydrogen Fuel Cell Power Generation Module
- 1W hydrogen fuel cell converts stored hydrogen into electricity
- Powers a built-in fan to demonstrate mechanical energy output
- Completes the closed-loop solar-to-hydrogen-to-electricity cycle
- Helps students understand hydrogen as an energy storage medium
Technical Specifications
The following specifications help schools, laboratories, and training centers evaluate whether the Photovoltaic Hydrogen Production Demonstration Kit matches their teaching, experiment, and classroom setup requirements.
| Technical Category | Parameter | Unit | Specification |
|---|---|---|---|
| Photovoltaic Panel | Total Power | W | 12 |
| Rated Voltage | V | 5 | |
| Rated Current | A | 2.4 | |
| PEM Electrolyzer | Rated Hydrogen Production | mL/min | 40 |
| Power Supply Voltage | V | 3 | |
| Rated Current | A | 6 | |
| Fuel Cell | Rated Power | W | <1 |
| Rated Voltage | V | 0.9 | |
| Rated Current | A | 1 | |
| Load | Power | W | 0.019 |
| Rated Voltage | V | 1 | |
| Rated Current | mA | 18.9 | |
| Demonstration Kit | Dimensions | mm | 750 × 420 × 330 |
| Weight | kg | 6.2 |
The Photovoltaic Hydrogen Production Demonstration Kit integrates photovoltaic power generation, PEM water electrolysis, hydrogen fuel cell power generation, and load demonstration in one compact teaching platform. Final configuration, accessories, documentation, and teaching package can be reviewed according to classroom, laboratory, or training program requirements.
Educational Benefits
This demonstration kit helps teachers explain renewable energy conversion through a visible and interactive experiment platform.
Visual Learning
Transparent structure allows students to observe solar power input, water electrolysis, gas generation, hydrogen collection, and fuel cell power output.
Students can connect theory with visible system behavior.
Data Tracking
Real-time voltage and current monitoring supports experiment analysis and helps students understand system response under changing conditions.
Students can record data for lab reports and energy conversion calculations.
Curriculum Integration
The kit supports lessons in hydrogen energy, electrochemistry, renewable energy, sustainability, energy storage, and fuel cell applications.
Suitable for interdisciplinary teaching in science and engineering programs.
Experiment Flexibility
Students can simulate solar fluctuations, measure production efficiency, compare load response, and analyze how light intensity affects hydrogen generation.
Teachers can design multiple practical experiments from one compact system.
Enhances Understanding
Helps students understand complex energy concepts through hands-on and visual learning.
Improves Engagement
Interactive experiments increase student participation and classroom engagement.
Supports Data-Driven Learning
Real data and analysis improve critical thinking and scientific problem-solving skills.
Prepares for the Future
Builds foundational knowledge in hydrogen technology and renewable energy for future careers.
Suggested Classroom and Laboratory Experiments
The kit can support structured experiments that help students understand solar power generation, PEM electrolysis, hydrogen storage, and fuel cell electricity output.
Experiment 1: Solar Irradiance vs. Electrical Output
Students adjust light intensity and observe changes in photovoltaic voltage and current.
Understand how light intensity affects solar panel performance.
Experiment 2: Electrical Input vs. Hydrogen Production
Students study how electrolysis conditions affect hydrogen and oxygen generation.
Analyze the relationship between input power and hydrogen production rate.
Experiment 3: Hydrogen Storage and Reuse
Students observe how produced hydrogen can be temporarily stored and then used by the fuel cell.
Learn hydrogen storage methods and safe reuse in the system.
Experiment 4: Fuel Cell Load Demonstration
Students use hydrogen to power the built-in fan and observe energy conversion into mechanical output.
Understand how the fuel cell converts hydrogen energy into electricity.
Experiment 5: Energy Conversion Chain Analysis
Students analyze the full solar-to-hydrogen-to-electricity cycle and discuss energy storage efficiency.
Evaluate efficiency and energy losses at each stage of the system.
Experiment 6: Renewable Energy Integration Discussion
Students compare direct solar power use with hydrogen storage and fuel cell power generation.
Develop a comprehensive understanding of renewable energy integration.
Hands-On Learning
Real equipment and experiments improve student engagement and practical skills.
Data & Analysis
Multiple measurement points support data collection, analysis, and scientific reporting.
Flexible Teaching
Experiments can be adjusted for different courses, levels, and learning goals.
Safe & Reliable Platform
Low-pressure system design with safety protections for classroom use.
Safety-Focused Design for Classroom Hydrogen Demonstrations
The kit is designed for educational demonstration and hands-on learning. Its compact modular layout and low-voltage operation make it suitable for classroom and laboratory use when operated according to instructions.
Low-Voltage Operation
Supports hands-on renewable energy learning with low-voltage demonstration conditions.
Integrated Gas-Liquid Separation
Gas-liquid separation helps students observe gas generation and supports cleaner system operation.
Water Recycling Layout
Water recycling helps demonstrate system circulation and improves classroom observation.
Compact Modular Design
The compact layout is easy to place on classroom benches, laboratory tables, or demonstration desks.
Transparent Observation Structure
Transparent components make the process easier to understand without opening the system.
Real-Time Data Monitoring
Integrated sensors provide live feedback on system parameters, enhancing the educational experience and analytical learning.
Hydrogen demonstration equipment should be used in a well-ventilated classroom or laboratory under supervision. Final safety configuration and operating procedures should be reviewed according to local requirements, teaching purpose, storage method, and installation conditions.
Recommended Applications
The Photovoltaic Hydrogen Production Demonstration Kit is suitable for renewable energy education, hydrogen technology training, and hands-on STEM learning.
University Engineering Programs
Supports courses in renewable energy, electrochemistry, hydrogen production, energy storage, and fuel cell systems.
Ideal For
chemistry
Renewable Energy Training Labs
Helps training centers demonstrate solar power generation, PEM electrolysis, hydrogen storage, and fuel cell electricity output.
Ideal For
Hydrogen Technology Courses
Provides a compact platform for explaining green hydrogen production and hydrogen utilization principles.
Ideal For
STEM Enrichment Programs
Helps students visualize clean energy conversion through interactive, hands-on experiments.
Ideal For
Designed for Education. Built for Exploration.
A flexible platform that supports teaching, training, and research across multiple disciplines in hydrogen, electrochemistry, control engineering, and sustainable energy.
What to Confirm Before Ordering
To recommend the suitable configuration and documentation package, please confirm your teaching purpose, laboratory environment, quantity, and support requirements.
Institution type
University, STEM, etc.
Teaching purpose
Demo, Lab, Training
Required quantity
Please let us know the quantity you plan to purchase or evaluate.
Power supply condition
Confirm voltage, phase, frequency, and available power capacity.
Adjustable light source requirement
Specify if an adjustable light source is needed for your laboratory setup.
Language requirement
Manual/Labels
Packaging and shipping destination
Please provide your preferred packaging type and final shipping destination.
Required documentation
Certificate, user manual, operation guide, or training documents.
Optional spare parts or accessories
Optional modules, accessories, or spare parts you may need.
Special laboratory safety requirements
Any special laboratory safety requirements, ventilation, or supervision.
We’re Here to Help
Our team will recommend the most suitable configuration for your teaching and research needs.
Customized Solutions
Flexible configurations to match your curriculum, lab setup, and training objectives.
Reliable & Professional
High-quality system with global support and long-term technical service.
Fast Response
Quick reply and efficient communication to support your project timeline.
Photovoltaic Hydrogen Production Demonstration Kit FAQ
What is the Photovoltaic Hydrogen Production Demonstration Kit used for?
Who is this kit suitable for?
What does the photovoltaic module do?
What is the hydrogen output of the PEM electrolyzer?
What does the hydrogen fuel cell module demonstrate?
Can students observe the gas generation process?
Can the system support experiment data analysis?
What subjects can this kit support?
Is this an industrial hydrogen generator?
What information should I provide for a quotation?
Request Details for the Photovoltaic Hydrogen Production Demonstration Kit
Tell us your teaching application, institution type, required quantity, destination country, documentation needs, and optional accessory requirements. Hele Titanium will help provide suitable product details and quotation support.
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Complete Solar-to-Hydrogen-to-Electricity Demonstration
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PEM Water Electrolysis and Hydrogen Fuel Cell Learning Platform
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Transparent Design for Visual Teaching
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Factory-Direct Product Supply and Documentation Support
Email Us Directly
sales@heletitanium.comHeadquarters
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