Development of a microbial fuel cell for sustainable wastewater treatment / Michael W Ellis, Nancy G Love, Ishwar K Puri

Por:

Ellis, Michael W

Tipo de material: Texto

TextoEditor: Alexandria, VA : Water environment research foundation, 2010Descripción: 1 v. (Varias paginaciones) : il. ; 28 cmISBN:

9781843393368

Trabajos contenidos:

Love, Nancy G [coaut.]
Puri, Ishwar K [coaut.]

Tema(s):

Clasificación CDD:

621.042 E5 2010

Recursos en línea:

Ver tabla de contenido y/o resumen

Resumen: Microbial Fuel Cells (MiFCs) are a promising renewable energy technology. but suffer from low power densities which hinder their practical applicability. In this work. fíame deposited, carbón nanostructures (CNS) are deposited on a stainless steel mesh anode in an attempt to improve the electrón transfer effíciency from microorganisms to the anode. During experimentation with anaerobic sludge in single-chamber MiFCs, cells utilizing CNS-enhanced anodes generated currents up to two orders of magnitude greater than cells with untreated stainless steel mesh anodes. Average power density with CNS-enhanced anodes was found to be 2 2 300 mW-m" compared to 13.6 mW-m" on untreated stainless steel anodes. Electron microscopy showed that microorganisms were affiliated with the CNS-coated anodes to a much greater degree than the uncoated anodes. In addition, microbial fuel cells using CNS enhanced anodes and nitrifying bacterial cultures were evaluated. With nitrifying bacteria, the MiFC power density was found to be very low.

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Item type	Current library	Collection	Call number	Status	Date due	Barcode
Libros impresos	CICY Colección general	Colección general	621.042 E5 2010 (Browse shelf(Opens below))	Available		8170

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Microbial Fuel Cells (MiFCs) are a promising renewable energy technology. but suffer from low power densities which hinder their practical applicability. In this work. fíame deposited, carbón nanostructures (CNS) are deposited on a stainless steel mesh anode in an attempt to improve the electrón transfer effíciency from microorganisms to the anode. During experimentation with anaerobic sludge in single-chamber MiFCs, cells utilizing CNS-enhanced anodes generated currents up to two orders of magnitude greater than cells with untreated stainless steel mesh anodes. Average power density with CNS-enhanced anodes was found to be 2 2 300 mW-m" compared to 13.6 mW-m" on untreated stainless steel anodes. Electron microscopy showed that microorganisms were affiliated with the CNS-coated anodes to a much greater degree than the uncoated anodes. In addition, microbial fuel cells using CNS enhanced anodes and nitrifying bacterial cultures were evaluated. With nitrifying bacteria, the MiFC power density was found to be very low.

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