Fuel Cell Electric Vehicle Trainer
HYDRO_FCEV
System Includes:
1. Hydrogen Energy System
Hydrogen Storage Cylinder
Pressure Regulation Unit
Hydrogen Supply Module
Safety Isolation Valves
2. PEM Fuel Cell System
PEM Fuel Cell Stack
Fuel Cell Controller
Air Supply Module
Fuel Cell Monitoring System
3. Electric Vehicle Powertrain
Traction Motor (BLDC/PMSM)
Motor Controller
Drivetrain Simulation Module
Vehicle Dynamics Interface
4. Energy Storage System
Lithium-Ion Battery Pack
Battery Management System (BMS)
DC-DC Converter
Energy Management Controller
5. Vehicle Load Simulation
Programmable Road Load Simulator
Driving Cycle Simulation
Acceleration and Braking Profiles
Regenerative Braking Demonstration
6. Measurement Devices
Fuel Cell Voltage & Current Sensors
Hydrogen Flow Meter
Battery Voltage & Current Monitoring
Motor Speed and Torque Sensors
Power and Energy Meters
7. Data Acquisition & Control
Real-Time Monitoring Software
Performance Analysis Interface
Vehicle Dashboard Display
Data Logging System
Why Hydrogen Refuelling Station Trainer ?
The trainer enables students and researchers to understand the complete operation of a Fuel Cell Electric Vehicle (FCEV), from hydrogen storage and fuel cell power generation to vehicle propulsion and energy management. Unlike conventional classroom instruction, the system allows learners to visualize how hydrogen is converted into electrical energy, managed through onboard electronics, and delivered to the electric drivetrain. Users can observe power flow, fuel consumption, battery interaction, motor performance, and vehicle response under different operating conditions.
Hydrogen-powered transportation is emerging as a key technology for achieving sustainable mobility and carbon-neutral transportation. The Fuel Cell Electric Vehicle Trainer helps learners develop practical competencies in:
Fuel cell electric vehicle architecture
Hydrogen storage and supply systems
Fuel cell operation and control
Electric traction motor technologies
Battery and hybrid energy management
Power electronics and motor control
Vehicle energy flow analysis
Regenerative braking systems
Hydrogen safety procedures
Sustainable transportation technologies
These skills are highly valuable for engineers, researchers, automotive professionals, and students pursuing careers in next-generation mobility systems.
The trainer transforms complex vehicle energy systems into measurable laboratory experiments such as:
Fuel cell polarization curve analysis
Hydrogen consumption measurement
Fuel cell efficiency evaluation
Battery charging and discharging studies
Power split between fuel cell and battery
Motor speed versus torque analysis
Vehicle acceleration performance studies
Regenerative braking characterization
Driving cycle performance evaluation
Energy flow and power management analysis
Hydrogen utilization efficiency studies
Comparison of operating conditions and vehicle outputs
These experiments help students correlate theoretical concepts with practical observations while understanding the operation of hydrogen-powered electric vehicles.
DEVELOP INDUSTRY RELEVANT SKILLS
LEARN THROUGH EXPERIMENTS
Block Diagram
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Office Address
E-127, First Floor, Greater Kailash - 3, New Delhi-110048
Factory Address
E-134, SITE EPIP, Greater Noida, Gautambuddha Nagar, Uttar Pradesh, 201312
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+91 7042520596
info@hydrogenergy.in
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