Title :
Hybrid fuel cell for pulse power applications
Author :
Jarvis, Louis P. ; Atwater, Terrill B. ; Cygan, Peter J.
Author_Institution :
CECOM Res. Dev. & Eng. Center, Fort Monmouth, NJ, USA
Abstract :
A hybrid fuel cell demonstrated pulse power capability. It successfully ran a pulse power load simulation synonymous with electronics and communications equipment. The hybrid consisted of a 25 W proton exchange membrane fuel cell (PEMFC) stack in parallel with a 70 farad capacitor assembly. A cyclic regime of 18.0 W for 2 minutes followed by 2.5 W for 18 minutes was chosen as the basic test regime. The operating potential cut-off voltage for pass/failure was set to 3.0 V. At room temperature (23-25°C), the PEMFC alone could not successfully power the baseline regime previously described. The PEMFC operating potential dropped below 3.0 V within 10 seconds. The hybrid continuously powered the cyclic regime for 25 hours. The hybrid´s operating potential never reached the voltage cut-off, even during the high load of 18.0 W. The tests were aborted after 25 hours of operation with no signs of output degradation, suggesting that continuous operation is possible
Keywords :
fuel cells; ion exchange; membranes; power supplies to apparatus; pulsed power technology; testing; 18 W; 18 min; 2 min; 2.5 W; 23 to 25 C; 25 W; 25 h; 3 V; 70 F; PEMFC stack; communications equipment; continuous operation; electronics equipment; hybrid fuel cell; operating potential cut-off voltage; output degradation; pass/failure cut-off voltage; proton exchange membrane fuel cell; pulse power applications; pulse power load simulation; room temperature; Assembly; Biomembranes; Capacitors; Communication equipment; Fuel cells; Protons; Radio access networks; Temperature; Testing; Voltage;
Conference_Titel :
Battery Conference on Applications and Advances, 1997., Twelfth Annual
Conference_Location :
Long Beach, CA
Print_ISBN :
0-7803-3631-3
DOI :
10.1109/BCAA.1997.574074
