Analysis and Improvement of a Scaled-Up and Stacked Microbial Fuel Cell

Tipo de material: Texto

TextoSeries ; Environ. Sci. Technol., 43(23), p.9038-9042, 2009Trabajos contenidos:

Dekker, A
Heijne, A
Saakes, M
Hamelers, H.V.M
Buisman, C.J.N

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Resumen: Scaling up microbial fuel cells (MFCs)is inevitable when power outputs have to be obtained that can power electrical devices other than small sensors. This research hasusedabipolar plate MFC stack of four cells with a total working volume of 20 L and a total membrane surface area of 2 m2. The cathode limited MFC performance due to oxygen reduction rate and cell reversal. Furthermore, residence time distribution curves showed that bending membranes resulted in flow paths through which the catholyte could flow from inlet to outlet, while leaving the reactants unconverted. The cathode was improved by decreasing the pH, purging pure oxygen, and increasing the flow rate, which resulted in a 13-fold power density increase to 144 W m-3 and a volumetric resistivity of only 1.2 mÙ m3 per cell. Both results are major achievementscomparedto results currently published for laboratory and scaled-up MFCs. When designing a scaled-up MFC, it is important to ensure optimal contactbetweenelectrodesandsubstrateandto minimize the distances between electrodes.

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Scaling up microbial fuel cells (MFCs)is inevitable when power outputs have to be obtained that can power electrical devices other than small sensors. This research hasusedabipolar plate MFC stack of four cells with a total working volume of 20 L and a total membrane surface area of 2 m2. The cathode limited MFC performance due to oxygen reduction rate and cell reversal. Furthermore, residence time distribution curves showed that bending membranes resulted in flow paths through which the catholyte could flow from inlet to outlet, while leaving the reactants unconverted. The cathode was improved by decreasing the pH, purging pure oxygen, and increasing the flow rate, which resulted in a 13-fold power density increase to 144 W m-3 and a volumetric resistivity of only 1.2 mÙ m3 per cell. Both results are major achievementscomparedto results currently published for laboratory and scaled-up MFCs. When designing a scaled-up MFC, it is important to ensure optimal contactbetweenelectrodesandsubstrateandto minimize the distances between electrodes.

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