Abstract Effects of reactant gas flow rates and starvation on the performance of phosphoric acid fuel cells were studied using single cells. As the reactant gas flow rates of single cell increased, the performance of the cell increased, and then remained constant. The optimum flow rates of hydrogen, oxygen and air under cell operating condition of 150 mA/cm2 at 190°C were found to be 5 cc/min·cm2, 5 cc/min·cm2, and 15 cc/min·cm2 at 1 atm and room temperature, respectively. The open circuit voltage of the single cell decreased with increasing oxygen flow rate at constant hydrogen flow rate, which is attributed to the increased gas cross-over rate. When the reactant gases were again supplied to the cell after gas starvation, the cell voltage losses were found to be about 5 mV in the case of hydrogen starvation and about 1 mV for oxygen starvation, and the voltage loss was independent of gas starvation time. These results were discussed from the electrochemical viewpoint of the cell.
[1]
T. Murahashi,et al.
Air and fuel starvation of phosphoric acid fuel cells: A study using a single cell with multi-reference electrodes
,
1991
.
[2]
New method of electrode fabrication for phosphoric acid fuel cell
,
1998
.
[3]
D. R. Crow.
Principles and Applications of Electrochemistry
,
1974
.
[4]
S. S. Penner,et al.
Assessment of Research Needs for Advanced Fuel Cells
,
1985
.
[5]
J. Bockris,et al.
Fuel cells : their electrochemistry
,
1969
.
[6]
A. Hagiwara.
FUEL CELL SYSTEMS
,
2022
.
[7]
Hardcover,et al.
Carbon: Electrochemical and Physicochemical Properties
,
1988
.