Fuel Cell Trainer

FCT-0033 FUEL CELL TRAINER

The FCT-0033 Fuel Cell Trainer is designed to facilitate a wide range of experiments with fuel cell technology. It features a modular design with an easy setup. The set includes the data acquisition software, which allows real-time monitoring of each cell in the fuel cell stack and calculates efficiencies and electrical characteristics of both fuel cells and electrolyzers. The setup is suitable for advanced research and educational purposes, providing comprehensive data and insights into fuel cell operation.

Specification

Data acquisition and software unit:
- Measuring Unit.
- TeckSync-FC software:
  - Plot the fuel cell stack’s and Electrolyzer’s::
    - Voltage-current.
    - Power-voltage.
    - Power-current.
    - Power-time characteristics.
  - Individual voltage measurement cable to monitor each cell.
  - Data recording as .csv format.
  - Cable Set (USB cable, 2x 2 mm cable set, 2x 4 mm cable set, 2x adapters).
- Power Supply Through USB.
FUEL CELL STACK 10:
- Nominal Power Per Cell: 200 mW
- Total Nominal Power (10 Cells): 2 W
- Generated Voltage: 0.4 – 0.96 V per cell
- Max. Power Per Cell: 300 mW (for short durations and higher air flow rate)
- Total Max. Power (10 Cells): 3 W (for short durations and higher air flow rate)
- Voltage and Current at Max. Power: 5.4 – 5.6 V for the stack voltage and 0.55 – 0.60 A for the current (for short durations and higher air flow rate)
- Electrode Area: 2.9 cm² per cell
ELECTROLYZER:
- Hydrogen Production Rate: 65 cm3/min
- Oxygen Production Rate: 32.5 cm3/min
- Hydrogen Storage Volume: 80 cm3/min
- Oxygen Storage Volume: 40 cm3/min
- Power Consumption: 16 Watts at 4.0 VDC
- Permissible Operating Voltage: 0 – 4 VDC
- Permissible Operating Current: 0 – 4.4 A
- Permissible Operating Pressure: 0 – 20 mbar
- Electrode Area: 2 cells at 16 cm2 each
- Operating Medium: Distilled Water
- Power Supply
Gas storage tank for hydrogen and oxygen that can hold up to 80 mL of gas
Battery Lithium ion:
1- Applicable as a load of fuel cells.
2- Applicable as a source for Electrolyzer.
Charge Controller:
1-The Input is applicable with the output rating of the fuel cell.
2-The output is applicable with the input rating of the Battery.
DC to DC Converter:
1-The Input should be applicable with the output rating of the Battery.
2-The output should be applicable with the input rating of the Electrolyser.
Management System (BMS) for the lithium ion battery:
- Overheat protection
- Low voltage protection
- Overcurrent protection
- Start switch
Load for the fuel cell: Fan, Lamp

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