Solar Wind Fuel Cells Energy Trainer

Solar Wind Fuel Cells Energy Trainer .

Solar Wind Fuel Cells Energy Trainer

Solar Wind Fuel Cells Energy Trainer has been designed for the study of renewable energies: solar energy, wind energy and hydrogen fuel cell systems. Complete with connecting cables, experiment manual, interface to PC and software for data acquisition and display.

Training Objectives of Solar Wind Fuel Cells Energy Trainer

1. Assembling a fuel cell   
2. Producing and storing hydrogen
3. Determining characteristic curve of solar panel
4. Hydrogen/oxygen or hydrogen/air operation
5. Determining characteristic curve of electrolyser
6. Determining electrolyser efficiency
7. Learning about Faraday’s laws
8. Determining characteristic curves of fuel cell
9. Determining fuel cell efficiency
10. Determining decomposition voltage of water
11. Building a model hydrogen car
12. Using methanol to generate electricity
13. Determining characteristic curves of DMFC
14. Influence of the surface of a solar module on voltage and current intensity of a solar module
15. Voltage and current in a series connection of solar panels
16. Voltage and current in a parallel connection of solar panels

Technical specifications of Solar Wind Fuel Cells Energy Trainer

Electrolyser cell:

5 cm³/min H2; 2,5 cm³/min O2;

1.16 W

RFC H2/O2/Air:

• Electrolyser mode: 5 cm³/min H2;2.5 cm³/min O2;
• 1.16 W
• Fuel cell mode:
• H2/O2mode: 300 mW
• H2/air mode: 100 mW

PEMFC Kit:

H2/O2 mode: 600 mW

H2/air mode: 200 mW

Methanol Fuel Cell:

Power: 10 mW

Gas storage: 30 cm³ H2; 30 cm³ O2

Solar module: 2.0 V / 600 mA

Battery Box: 4.5 VDC / 0.8 A

Power supply: 1.2 A

Wind generator  

• (Average performance with table fan)
• Umax =6.0 V
• Imax =0.3 A

Solar module: 2.0 V / 600 mA

Decade Resistor:

• Max. capacity: 1.2 W
• Ports: 2 mm
• Weight: 190 g
• H x W x D: 40 x 160 x 130 mm

Multimeters:

• Ports: 2 mm
• Weight: 140 g H x W x D: 125 x 70 x 30 mm
• 2 carrying cases: 140 x 450 x 380 mm. each