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Microbial Fuel Cell Operation and Use with Anaerobic Digestion for Power Production from Dairy Manure

Published by the American Society of Agricultural and Biological Engineers, St. Joseph, Michigan www.asabe.org

Citation:  2007 ASAE Annual Meeting  074144.(doi:10.13031/2013.23066)
Authors:   Crystal A Powers, Ruth E Richardson, Norman R Scott
Keywords:   microbial fuel cell, anaerobic digestion, agricultural wastes, bioenergy, electricity generation, energy conversion

At the start of the new millennium, it is important to find methods of energy generation and organic waste utilization that are sustainable for the future. Livestock manure has long been valued as a fertilizer and soil amendment, and more recently as a methane producer for heat and power via anaerobic digestion (AD). Microbial fuel cells (MFC) may offer an additional opportunity to gain value through direct electrical generation with little reduction in the manure's soil building value, while concurrently reducing the manure's pollution potential. We demonstrate that simple lab-scale MFCs capable of electrical production can be used with dairy manure and the microorganisms needed for are endogenously present. The system was operated with various raw manure concentrations (0-100 g/L COD, 20 oC), generating a maximum power density of 116 ± 23 mW/m2 (COD 100 g/L). Power production was proportional to manure strength over the entire range. Anaerobic Digestion is adversely affected by temperature reduction; however the MFCs still operate effectively. Average maximum power density increased with temperature from 8±1 to 26±5 mW/m2, average total power from 0.56±0.07 to 2.5±0.35 J, while average COD destruction remained nearly the same (21±9% to 27±10%). When used together, the operation of MFCs after AD was the better combination, with no reduction in MFC performance (12.9±2.3 to 12.5±2.2 C captured), while there appeared to be a tradeoff with MFC use before AD with an average biogas reduction of 20% (25±2 to 20±9mL).

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