Optimizing the electrode surface area of sediment microbial fuel cells

Yang, Yonggang; Yan, Lei; Song, Jianhua; Xu, Meiying

doi:10.1039/c8ra05069d

Cited by 28 publications

(6 citation statements)

References 22 publications

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“…Internal resistance the growth of bacteria, which is responsible for the generation of bioelectricity and a higher substrate availability. 23 The experimental data indicate that the addition of OPW can significantly improve the SPMFCs' performance (Figure 4). A maximum power density of about 0.24 W m À2 was obtained with 50 g of OPW at an external resistance of 1000 Ω.…”

Section: Bioelectricity Generationmentioning

confidence: 94%

The influence of organic pollutant load and external resistance on the performance of a solid phase microbial fuel cell fed orange peel wastes

Hariti

Chemlal

Drouiche

et al. 2021

Env Prog and Sustain Energy

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The degradation of organic matter in marine sediments could be taken advantage of to produce electricity by using a sediment microbial fuel cell (SMFC) inspired system.A single solid phase microbial fuel cell (SPMFC) in which orange peel wastes were supplemented as a carbon source mixed to marine sediments produced a power of 0.33 mW and a voltage of 0.7 V. By stacking multiple SPMFCs powers of 2.08 mW were generated for a voltage of 4.6 V. The use of dewatered sludge to inoculate the marine sediment improved the SPMFCs' performance. The removal of organic matter in the SPMFC system under closed circuit conditions was very interesting, removal rates were 19%-40% from readily oxidizable organic matter,15 to 35% for loss on ignition and 22%-55% for total organic carbon, indicating the possibility of using these systems to treat solid organic wastes and produce electricity at the same time. K E Y W O R D Sbioelectricity, dewatered sludge, orange peel waste (OPW), scale-up, sediment microbial fuel cells (SMFC), solid phase microbial fuel cell (SPMFC)

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Section: Bioelectricity Generationmentioning

confidence: 94%

The influence of organic pollutant load and external resistance on the performance of a solid phase microbial fuel cell fed orange peel wastes

Hariti

Chemlal

Drouiche

et al. 2021

Env Prog and Sustain Energy

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“…This catalyst layer is based on platinum (0.5 mg cm −2 of Pt/C obtained by Sigma Aldrich) and 5 wt% of Nafion (Sigma Aldrich, St. Louis, Missouri, USA) [11]. One cathode, with an area of 6 × 3 cm 2 , was used for each SMFC, ensuring an optimal 1 to 1 ratio between the area of the cathode and the maximum anodic areas, corresponding to the sum of the two anodes' areas [54]. Cathodes were placed near the water's surface for efficient aeration, leading thus to provide an optimized direct oxygen reduction reaction (ORR).…”

Section: Methodsmentioning

confidence: 99%

Enhanced Power Extraction with Sediment Microbial Fuel Cells by Anode Alternation

Quaglio

Ahmed

Massaglia

et al. 2021

Fuels

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Sediment microbial fuel cells (SMFCs) are energy harvesting devices where the anode is buried inside marine sediment, while the cathode stays in an aerobic environment on the surface of the water. To apply this SCMFC as a power source, it is crucial to have an efficient power management system, leading to development of an effective energy harvesting technique suitable for such biological devices. In this work, we demonstrate an effective method to improve power extraction with SMFCs based on anodes alternation. We have altered the setup of a traditional SMFC to include two anodes working with the same cathode. This setup is compared with a traditional setup (control) and a setup that undergoes intermittent energy harvesting, establishing the improvement of energy collection using the anodes alternation technique. Control SMFC produced an average power density of 6.3 mW/m2 and SMFC operating intermittently produced 8.1 mW/m2. On the other hand, SMFC operating using the anodes alternation technique produced an average power density of 23.5 mW/m2. These results indicate the utility of the proposed anodes alternation method over both the control and intermittent energy harvesting techniques. The Anode Alternation can also be viewed as an advancement of the intermittent energy harvesting method.

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Section: Introductionmentioning

confidence: 99%

“…Optimization of anode surface area and catholyte volume are other two important parameters for electron and proton transport in MFC leading to the generation of electricity (Sangeetha and Muthukumar 2011;Yang et al 2018;Ling et al 2019). Among the properties of a good electrode, large surface area with biocompatibility, good electrical conductivity and chemical stability are desirable where graphite proves to be the excellent material as electrode (Zhao et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Microbial fuel cell performance for aromatic hydrocarbon bioremediation and common effluent treatment plant wastewater treatment with bioelectricity generation through series-parallel connection

Mukherjee

Patel

Zaveri

et al. 2022

Letters in Applied Microbiology

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Microbial fuel cell (MFC) is an emerging technology which has been immensely investigated for wastewater treatment along with electricity generation. In the present study, the treatment efficiency of MFC was investigated for hydrocarbon containing wastewater by optimizing various parameters of MFC. Mediator‐less MFC (1·2 l) was constructed, and its performance was compared with mediated MFC with Escherichia coli as a biocatalyst. MFC with electrode having biofilm proved to be better compared with MFC inoculated with suspended cells. Analysis of increasing surface area of electrode by increasing their numbers indicated increase in COD reduction from 55 to 75%. Catholyte volume was optimized to be 750 ml. Sodium benzoate (0·721 g l–1) and actual common effluent treatment plant (CETP) wastewater as anolyte produced 0·8 and 0·6 V voltage and 89 and 50% COD reduction, respectively, when a novel consortium of four bacterial strains were used. Twenty MFC systems with the developed consortium when electrically connected in series‐parallel connection were able to generate 2·3 V and 0·5 mA current. This is the first report demonstrating the application of CETP wastewater in the MFC system, which shows potential of the system towards degradation of complex organic components present in industrial wastewater.

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Optimizing the electrode surface area of sediment microbial fuel cells

Cited by 28 publications

References 22 publications

The influence of organic pollutant load and external resistance on the performance of a solid phase microbial fuel cell fed orange peel wastes

The influence of organic pollutant load and external resistance on the performance of a solid phase microbial fuel cell fed orange peel wastes

Enhanced Power Extraction with Sediment Microbial Fuel Cells by Anode Alternation

Microbial fuel cell performance for aromatic hydrocarbon bioremediation and common effluent treatment plant wastewater treatment with bioelectricity generation through series-parallel connection

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