- 3 Use Matlab Or A Similar Mathematical Program Based On The Data Of Table 3 3 To Plot The Graphs Like Those Of Figure 1 (17.18 KiB) Viewed 31 times
- 3 Use Matlab Or A Similar Mathematical Program Based On The Data Of Table 3 3 To Plot The Graphs Like Those Of Figure 2 (23.9 KiB) Viewed 31 times
- 3 Use Matlab Or A Similar Mathematical Program Based On The Data Of Table 3 3 To Plot The Graphs Like Those Of Figure 3 (28.23 KiB) Viewed 31 times
- 3 Use Matlab Or A Similar Mathematical Program Based On The Data Of Table 3 3 To Plot The Graphs Like Those Of Figure 4 (23.25 KiB) Viewed 31 times
Table 3.3 Example values of parameters for equation (3.22). Parameter Low temperature (e.g., PEMFC) High temperature (e.g., SOFC) 1.2 1.0 2 V. (V) in (mA cm2 r (k2 cm) i, (mA cm2) A (V) B (V) i (mAcm 2 2 30 x 10-6 0.067 300 x 10-6 300 0.03 0.06 0.05 0.08 900 900
1.2 1.0 "No loss' voltage of 1.2 V Even the open circuit voltage is less than the theoretcial no loss value Rapid initial fall in voltage Voltage falls more slowly and graph is fairly linear 0.8 - Cell voltage (V) 0.6 - 0.4 T L Voltage begins to fall faster at higher currents 0.2 T 0 800 200 400 600 1000 Current density (mA cm) Figure 3.1 Graph showing the voltage for a typical low temperature, air pressure, fuel cell.
1.2 1.0 "No loss' voltage of 1.0 V Graph is fairly linear 0.8 Cell voltage (V) 0.6 Very small initial fall in voltage, and open circuit voltage is very close to theoretical value 0.4 - Voltage begins to fall faster at higher currents 0.2 200 400 600 800 1000 Current density (mA cm2 Figure 3.2 Graph showing the voltage of a typical air pressure fuel cell operating at about 800°C.