SGER: Hollow-Fiber Membrane Microbial Fuel Cells (HFM-MFCs) for Electricity Production from Wastewater
University Of Notre Dame, Notre Dame IN
Investigators
Abstract
CBET 0723003 Robert Nerenberg Notre Dame University SGER: Hollow-fiber membrane microbial fuel cells (HFM-MFCs) for electricity production from wastewater This small grant for exploratory research proposal will evaluate the concept of using microporous hollow fiber membranes (HFMs) as the physical support for growth of microbial biofilms in reactors to be used as microbial fuel cells (MFCs). HFMs have the potential advantage of greatly decreasing the separation between the anode and cathode in the MFC, which should greatly reduce internal resistance and increase efficiency. Low efficiency in energy conversion has been a major issue in the development of microbial fuel cells for electric power production from wastewater. The high specific surface area of HFMs also allows the use of relatively small reactors to treat large volumes of wastewater. The project will address several challenges in microbial fuel-cell research, including quantification of the importance of oxygen inhibition on MFC activity. The PI also will explore the suitability of converting the HFM-MFC configuration to produce H2 by eliminating oxygen supply to the cathodic side, thereby producing what has been called a "bioelectrochemically assisted microbial reactor" or BEAMR. The PI is a young investigator, which matches the division's goals of using SGER funding primarily for this class of investigators.
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