Integrated teaching and training platform for hydrogen fuel cells

Product Overview:

The Automotive Fuel Cell System Training Platform, based on the operating principles of hydrogen fuel cell systems for new energy pure electric vehicles, dynamically displays the operating status of the fuel cell system. Through hands-on operation of components, students can intuitively understand the fuel cell's operating principles and simulate working conditions. It is suitable for automotive training programs in higher vocational colleges, vocational technical schools, and vocational education centers, including those for automotive operation and maintenance, as well as for related occupations such as new energy vehicle repair.

The platform consists of a control panel, a movable stand, a start switch, an accelerator pedal, a gear switch, a brake switch, a digital tachometer, and a current indicator. LEDs provide dynamic indication of system flow, along with an accelerometer, a power supply and switch, a large color printed circuit schematic, and a user manual.

The platform's experimental objectives are: To understand the energy conversion between solar energy, electrical energy, and chemical energy, and to master the preparation of oxygen and hydrogen, hydrogen oxidation, and the "exhaust gas collection method." The platform also provides key knowledge on electrolyzers, the principles and applications of fuel cells, and solar power generation.

Features:

The solar cell converts solar energy into electricity, which is then fed into an electrolyzer, where water is split. The resulting hydrogen and oxygen are stored in separate cylinders and fed into a fuel cell for hydrogen-oxygen hydration. The resulting energy ultimately powers the fan and LEDs.

1. Powered by solar energy and an electrolyzer, the system independently collects hydrogen and oxygen. Energy is displayed as a fan and a flashing LED light. Sensors collect the current and voltage of the hydrogen-oxygen battery in real time, deepening understanding of the output characteristics of hydrogen fuel cells. This fully demonstrates the automotive fuel cell power system and dynamically simulates the energy flow and motor operating conditions under six operating conditions: starting, low-speed driving, normal driving, full speed driving, deceleration, and parking.

2. The training panel features a 4-meter-thick, high-grade aluminum-plastic panel with a specially spray-coated primer and a non-fading UY flatbed printout of a color circuit schematic. This panel is resistant to corrosion, impact, pollution, fire, and moisture. Students can visually compare the schematic diagram with the actual vehicle fuel cell system, helping them understand and analyze its operating principles.

3. The device is equipped with a simulated motor to demonstrate its operating conditions. The teaching panel is equipped with an ignition switch, head switch, accelerator pedal, gear switch, brake switch, tachometer, and current indicator, providing dynamic indication of system flow.

4. The teaching panel is constructed entirely of 1.5mm thick cold-rolled steel, processed according to strict sheet metal processing techniques, pickled, and spray-coated for a beautiful appearance. The base is a welded steel structure with a spray-coated surface. The teaching panel, equipped with self-locking casters, features a 30cm-wide tabletop for convenient storage of materials and lightweight testing equipment. A transparent steel cabinet is located underneath, housing the training components.

5. The teaching board operates on a standard 220V AC power supply, which is converted to 12V DC via internal transformers and rectification. No batteries are required, reducing the need for charging. The 12V DC power supply is short-circuit proof.

6. Student Training Skills Scoring System Software (authentic software; copyright certificate required for verification at the bidding site). System functions include: fault setting, fault simulation, student assessment and scoring, and troubleshooting.

Training Projects:

Operating an automotive fuel cell system

Demonstrating the structure and principles of an automotive hydrogen fuel cell system

Observing the dynamic flow direction indicator system composed of light-emitting diodes

Practical Training on Ignition Switch and Adjustment Switch Operation. Hydrogen fuel cell system startup training

Oxygen fuel cell system low-speed driving training

Oxygen fuel cell system normal driving training

Hydrogen fuel cell system full-speed driving training

Hydrogen fuel cell system deceleration driving training

Hydrogen fuel cell system parking driving training

Hydrogen fuel cell system brake regeneration training

Technical Specifications:

Dimensions: 2200*1200*1400mm (LxWxH)
External Power Supply: AC 220V ±10% 50Hz
Operating Voltage: DC 12V/78V
Operating Temperature: -35°C to +45°C