Description

IES-EV-354

Hydrogen Fuel Cell Electric Vehicle Training System Integrated with Renewable Energy

Hydrogen Fuel Cell EV Training System is an advanced clean-energy training platform designed to demonstrate hydrogen-based power generation, electric vehicle propulsion, and renewable energy integration.

This system integrates a PEM hydrogen fuel cell stack, lithium-ion battery with BMS, electric motor drive system, and renewable energy interface (solar/wind), enabling learners to study energy conversion, hybrid energy management, and sustainable mobility technologies.

KEY TECHNICAL SPECIFICATIONS

• Fuel Cell Power Generation System
  PEM hydrogen fuel cell stack designed for demonstrating electrochemical energy conversion and electric power generation.
• Fuel Cell Stack Configuration
  Multi-cell proton exchange membrane fuel cell module capable of supplying electrical power for EV training applications.
• Hydrogen Supply & Control System
  Controlled hydrogen supply system with pressure regulation, flow control and safety mechanisms for laboratory operation.
• Battery & Energy Storage System
  Lithium-ion battery pack integrated with battery management system for energy storage and load balancing.
• Motor & Drive System
  Electric traction motor with compatible motor controller used for propulsion and load demonstration.
• Charging & Power Management System
  Energy transfer controller enabling charging of battery from fuel cell output and hybrid energy operation.
• Renewable Energy Integration
  Provision for solar photovoltaic or wind energy modules for hybrid renewable energy training experiments.
• Instrumentation & Monitoring Interface
  Measurement and monitoring of voltage, current, hydrogen flow, battery state-of-charge and output power.
• Data Acquisition & Monitoring System
  Real-time monitoring interface for observation, data logging and graphical visualization of system parameters.
• Safety & Protection System
  Integrated safety mechanisms including hydrogen pressure control, system shutdown protections and electrical safeguards.

RANGE OF EXPERIMENTS

• Study of hydrogen fuel cell operation and start-up behaviour

• Analysis of energy conversion from hydrogen to electrical power

• Fuel cell to battery charging and load sharing experiments

• Hybrid energy system operation with renewable energy sources

• Monitoring of battery charging behaviour and state-of-charge

• Motor operation using fuel cell generated electrical power

• Hydrogen flow measurement and power output analysis

• Study of safety shutdown and protection system response

• Energy conversion efficiency and system performance evaluation

FEATURES

• PEM hydrogen fuel cell based electric vehicle training platform

• Demonstration of hydrogen energy conversion and EV propulsion

• Hybrid renewable energy integration capability

• Real-time monitoring of hydrogen and electrical parameters

• Modular workbench design for easy component access

• Integrated safety protection and shutdown mechanisms

• Suitable for EV, hydrogen energy and renewable energy training

• Ideal for engineering laboratories and research centres