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Manuscript ID : 13254 Visit : 135 Page: 37 - 43

10.22034/jest.2018.13254

Article Type: Original Research

Microbial fuel cell: a strategy for bioremediation and energy production

Subject Areas : Environment Pullotion (water and wastewater)

Mehran Jafari 1 , Samaneh Sedighi Khavidak 2

1 - M.Sc. of Microbiology, Islamic Azad University, Ashkzar Branch, Yazd.
2 - ‌Assistant Professor of Microbiology, Islamic Azad University, Ashkzar Branch, Yazd *(Corresponding Author).

Received: 2015-11-14 Accepted : 2015-12-15 Published : 2018-09-23

Keywords: Wastewater treatment, Microbial Fuel Cell, Bioremediation, Electricity,

Abstract :

Background and Objective: Application of microbial fuel cells (MFC) is a new method for wastewater treatment and environmentally friendly energy production. This technology converts the chemical energy derived from metabolic activity of living organisms into electrical energy. Method: A sample of raw wastewater was prepared as a source of microbial fuel cell substrate from the refinery of Yazd city. This study was carried out using a two-compartment bioreactor with wastewater as substrate and microbial flora. The containers were made of glass with a volume of 550 cc. In the anode chamber, under the anaerobic conditions, the wastewater was catalyzed by microbial flora. In the cathode chamber, potassium phosphate buffer was used to maintain the pH of the solution. The positive ions transferring from anode to cathode was done by positive salt bridge system. Findings: The findings showed that the maximum voltage of 1 V was produced during the early days in this reactor. Then gradually the amount of voltage was reduced and wastewater samples were refined to some extent. The highest rate of produced flow was 248 μA, and then the flow rate was decreased. Therefore, the dual role of the reactor in electricity production and wastewater treatment can be explained. Discussion and Conclusion: In this study, wastewater treatment and also electricity production could be performed using a microbial fuel cell based on salt bridge.  

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  1. John Wiley & Sons Logan BE. Microbial Fuel Cell. New Tork. 2008.
    2.

  1. Chaudhuri, SK. and Lovley, DR” Electricity generation by direct oxidation of glucose in mediatorless microbial fuel cells”. Nature Biotechnology. (2003). No21, pp. 1229-1232.
    2.
  2. Microbial fuel cell, hydrogen and fuel cell issu January. 1393. No 95. http://www.fcc.gov.ir/microbialfuelcell.aspx.
    3.
  3. Ahn Y, Logan BE.” Effectiveness of Domestic Wastewater Treatment Using Microbial Fuel Cells at Ambient and Mesophilic Temperatures”. Bioresour Technol. No:101(2). 2010. pp: 469-75.
    4.
  4. Jiang J, Zhao Q, Zhang J, Zhang G, Lee D. “Electricity Generation from Bio-treatment of Sewage Sludge with MicrobialFuel Cell”. BioresourTechnol.NO: 100.Y:2009. pp:5808-5812.
    5.
  5. Qing W, et al.” Electricity Generation and Modeling of Microbial Fuel Cell from Continuous Beer Brewery Wastewater”. Bioresour Technol. NO:100(18). Y: (2009); pp:4171-4175.
    6.
  6. Reimers, CE., Tender, LM., Fertig, S. and Wang, W.” Harvesting energy from the marine sediment-water interface”. Environmental Science & Technology .NO: 35. Y:(2001)., pp. 192-195.
    7.
  7. Basura, V.I., Beattie, P.D. and Holdcroft, S. “Solid-state electrochemical oxygen reduction at Pt/Nafions 117 andPt/BAM3GTM 407 interfaces". J. Electroanal. Chem .NO: 458, (1998), pp. 1-5.
    8.
  8. Muralidharan, A., Ajay Babu, OK., Nirmalraman, K. and Ramya. “MImpact of Salt Concentration on Electricity Production in Microbial Hydrogen Based Salt Bridge Fuel Cells”. Indian Journal ofFundamental and Applied Life Sciences, NO:1(2), April-June.Y: (2001), pp. 178-184.
    9.




 

 

 

 

 

 

 

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