Title :
Thermal management of portable micro fuel cell stacks
Author :
Hahn, Robert ; Krumm, Michael ; Reichl, Herbert
Author_Institution :
Fraunhofer Inst. Reliability & Microintegration, Berlin, Germany
Abstract :
A prototype of a CamCorder with a PEM (polymer electrolyte membranes) fuel cell system consisting of a stack of fifteen bipolar plates was developed to deliver a maximum output power of 9 W. This system replaces the Li-ion battery pack normally used as an energy source for the camera. A thermal model for the fuel cell stack was developed and validated by thermal measurements. The model was used to study different cooling methods and the integration of fuel cells into portable electronic products. A new method of stack cooling was developed in which most of the heat is transferred by means of thermal conduction via the bipolar plates and then distributed to external cooling devices. In this way, system miniaturization was achieved and weight and costs were kept to a minimum by reducing the number of ancillary components.
Keywords :
cooling; heat conduction; proton exchange membrane fuel cells; thermal analysis; thermal management (packaging); video cameras; 9 W; CamCorder; PEM fuel cell system; bipolar plates; camera energy source; cooling methods; heat transfer; numerical thermal analysis; polymer electrolyte membranes; portable electronics power source; portable micro fuel cell stacks; system integration; thermal conduction; thermal management; thermal model; Biomembranes; Electronics cooling; Fuel cells; Polymers; Power generation; Power system management; Power system modeling; Prototypes; Thermal management; Video equipment;
Conference_Titel :
Semiconductor Thermal Measurement and Management Symposium, 2003. Ninteenth Annual IEEE
Print_ISBN :
0-7803-7793-1
DOI :
10.1109/STHERM.2003.1194363
