Studies of Factors Affecting on the DMFC Performance for Long-term Operation

Chou, Ching-hung

23 August 2010

The problem of the performance decay and the factors affecting on the DMFC performance for long-term operation are studied in this thesis. First, the influence of the initial treatments of MEA and the exposure of MEA in the atmosphere on the water content are measured. In addition, the effects of the pressure of the MEA hot press conditions, the treatments and preservation of MEA, and the operative conditions on the performance are also examined. Eventually, we expect that the best way to increase the DMFC performance and avoid the performance can be found. These can provide for references when a portable DMFC need to be designed and manufactured in future. In order to solve the problem of methanol crossover leading to the cathode poisoned, cells are operated only under the proper methanol concentration and discharged thoroughly before finishing the whole experiment. It is also necessary to maintain MEAs in proper wetness so that the performance of stack will not decay too quickly. In the initial treatment, firstly, a MEA is immersed in 3M MeOH and then boiled with 80oC DI water for an hour, respectively. The experimental conditions of this passive single-cell DMFC are pumpless in anode chamber, air-breathing, and room temperature. The power density of this DMFC with these test conditions can reach a value about 33mW/cm2. This value is about 106% higher than that of the untreated MEA. If MEA boiled with 0.5M H2SO4 for an hour and then boiled with 80oC DI water for an hour, its power density is about 75% higher than that of the untreated MEA.

air-breathing

DMFC

carbon fiber bunch unipolar plate