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Please use this identifier to cite or link to this item: http://arks.princeton.edu/ark:/88435/dsp01jh343s40t
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dc.contributor.advisorStone, Howard A.-
dc.contributor.authorSahu, Amaresh-
dc.date.accessioned2013-07-24T14:44:03Z-
dc.date.available2013-07-24T14:44:03Z-
dc.date.created2013-04-15-
dc.date.issued2013-07-24-
dc.identifier.urihttp://arks.princeton.edu/ark:/88435/dsp01jh343s40t-
dc.description.abstractMicrobial fuel cells (MFCs) are electrochemical devices that use bacteria as a vehicle to oxidize organic and inorganic matter to produce electricity. Previous effort has developed proton exchange membrane (PEM) MFCs, which integrate continuous fluid flow and use the membrane as a physical barrier between anodic and cathodic compartments. Recently, fuel cells have been developed to take advantage of the ability of low Re fluids to flow side by side down a microchannel without convective mixing. The liquid-liquid interface acts as a membrane, through which fast protons are transported, so co-flow devices do not suffer the problem of membrane degradation that their PEM counterparts do. This paper evaluates the design, fabrication, and testing of a microfluidic co-flow MFC using the bacterial strain Shewanella oneidensis MR-1. Technical challenges in the proof of concept experimentation are systematically worked through and the design of other working co-flow devices are adapted to come up with two possible co-flow MFC fabrication procedures.en_US
dc.format.extent40 pagesen_US
dc.language.isoen_USen_US
dc.titleCo-Flow Microbial Fuel Cellsen_US
pu.date.classyear2013en_US
pu.departmentChemical and Biological Engineeringen_US
pu.pdf.coverpageSeniorThesisCoverPage-
dc.rights.accessRightsWalk-in Access. This thesis can only be viewed on computer terminals at the <a href=http://mudd.princeton.edu>Mudd Manuscript Library</a>.-
pu.mudd.walkinyes-
Appears in Collections:Chemical and Biological Engineering, 1931-2020

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