Fuel Cell Training System
Fuel Cell Training System Lab Solutions with PEM stacks, hybrid setups & FCEV simulations for clean energy learning. Explore innovation with Ecosense.
Key Features
- PEM Fuel Cell Stack
A Proton Exchange Membrane fuel cell stack that runs on high-purity hydrogen (≥99.995%) and includes self-humidification for simplified operation. - Prefilled Hydrogen Cylinder
A prefilled 47L hydrogen cylinder is provided with the system to run PEM Fuel Cell - Real-Time Monitoring Panel
Active dashboard to display and monitor stack voltage, current, power output, temperature, hydrogen flow rate, and system status during all experiments. - Modular Power Control Architecture
Includes a charge controller, DC battery bank, and inverter to support multiple configurations—DC-only loads, AC loads, or hybrid use with other energy systems. - Comprehensive Safety Systems
Automatic shutdown features for low voltage, overcurrent, and overtemperature conditions ensure safe, long-term usage even during student-led experiments. - Standalone or Hybrid System Ready
The system can be used independently or integrated with solar PV, electrolyzers, or wind modules for complete microgrid or hybrid system studies. - Illustrated Experiment Manual
Comes with a step-by-step guide covering theory, wiring, objectives, procedures, data tables, and analysis—ideal for classroom or lab use. - Plug-and-Play Architecture
Pre-assembled, color-coded terminals and labeled modules allow for fast setup and reconfiguration by students or researchers without specialized tools. - Hydrogen Leak Detection System
Integrated hydrogen leak detectors provide critical safety assurance by continuously monitoring for leaks near the stack and gas supply line. If a leak is detected, the system triggers visual/audible alarms or safety shutdown, ensuring a safe lab environment.
Learning Module
Fuel Cell Fundamentals & Characterization
- Plot V-I and Power curves using resistive and electronic loads
- Study how hydrogen flow rate, pressure, and temperature affect output
- Observe self-humidification and air-cooling behavior at different load conditions
- Calculate fuel cell efficiency, heat losses, and power density
Standalone System Integration
- Connect fuel cell to DC loads via charge controller and battery bank
- Operate AC appliances through inverter to analyze system response
Advanced Applications & Control
- Analyze transient response and stability under dynamic loads
- Interface with data acquisition systems for real-time monitoring and control