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Background on Microbial Fuel Cells

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Background on Microbial Fuel Cells A bio-electric system Microbially maintained ion gradient fuels electron flow, generating electricity Two phases of microbial fuel ... – PowerPoint PPT presentation

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Title: Background on Microbial Fuel Cells


1
Background on Microbial Fuel Cells
  • A bio-electric system
  • Microbially maintained ion gradient fuels
    electron flow, generating electricity
  • Two phases of microbial fuel cells
  • Degradation of organic matter (cellulose)
  • Electricity generation (transfers ions)

2
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3
Examples of Microbial Fuel Cells
4
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5
Background on MFCs
  • Mixed Cultured MFCs
  • Advantages
  • Full, robust utilization of breakdown products
  • Wide range of functionality
  • Single Strain MFCs
  • Advantages
  • Simplification of bio-component MFC
  • Better capacity for genetic engineering in MFCs

6
Simultaneous Cellulose Degradation and
Electricity Production by Enterobacter cloacae in
a Microbial Fuel Cell
  • Authors Farzaneh Rezaei, Defeng Xing, Rachel
    Wagner, John M. Regan, Tom L. Richard, and Bruce
    E. Logan
  • Penn State University

7
Methods
  • Isolation by DTE (dilution to extinction)
  • Based on exoelectrogenartion and cellulose
    degradation
  • PCR (polymerase chain reaction), DGGE (denaturing
    gradient gel electrophoresis), and 16S rRNA
    sequence comparison
  • Biochemical comparison
  • Measured growth with various carbon sources

8
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9
Results
  • DGGE of dilution to extinction

10
Results
  • Enterobacter cloacae
  • Gram-negative
  • Facultative anaerobe
  • Rod-shaped
  • Motile by peritrichous flagella

11
Discussion
  • Enterobacter cloacae MFC is first single strained
    MFC.
  • This MFC is limited by complete metabolism and
    toxin accumulation.
  • Measuring exoelectrogeneration potential by
    Fe(III) reduction is flawed
  • Synergistic effects of mixed culture MFCs are
    poorly understood

12
Comparison of electricity production
13
Critique
  • Single wastewater source
  • One source limits the potential microbes.
  • Researchers should have isolated microbes from
    several sources.
  • Isolation and characterization was narrow
  • Other microbes from mixed cultures should have
    been examined closely to understand the
    mechanisms behind mixed culture synergy.

14
References
  • Christy, A. D., 2008. Cellulose Conversion to
    Electricity in Microbial Fuel Cells Challenges
    and Constraints. Microbial Fuel Cells First
    International Symposium
  • Rezaei, Farzaneh, et al. 2009. Simultaneous
    cellulose degradation and electricity production
    by Enterobacter cloacae in a Microbial Fuel Cell.
    Appl. Environ. Microbiol. 7536733678
  • Zuo, Y., et. al. 2008. Isolation of the
    exoelectrogenic bacterium Ochrobactrum anthropi
    YZ-1 by using a U-tube microbial fuel cell. Appl.
    Environ. Microbiol. 743130-3137

15
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