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Literature DB >> 27666730

Bioelectrochemical Power-to-Gas: State of the Art and Future Perspectives.

Florian Geppert¹, Dandan Liu², Mieke van Eerten-Jansen³, Eckhard Weidner⁴, Cees Buisman², Annemiek Ter Heijne².

Abstract

Bioelectrochemical power-to-gas (BEP2G) is considered a potentially convenient way of storing renewable surplus electricity in the form of methane. In methane-producing bioelectrochemical systems (BESs), carbon dioxide and electrical energy are converted into methane, using electrodes that supply either electrons or hydrogen to methanogenic archaea. This review summarizes the performance of methane-producing BESs in relation to cathode potential, electrode materials, operational strategies, and inoculum. Analysis and estimation of energy input and production rates show that BEP2G may become an attractive alternative for thermochemical methanation, and biochemical methanogenesis. To determine if BEP2G can become a future power-to-gas technology, challenges relating to cathodic energy losses, choice of a suitable electron donor, efficient reactor design/operation, and experience with large reactors need to be overcome.

Entities: Chemical Species

Keywords: Biocathode; Bioelectrochemical power-to-gas; Bioelectrochemical systems; Methane; Methanogenic archaea

Mesh：

Substances：
Carbon Dioxide
Methane

Year: 2016 PMID： 27666730 DOI： 10.1016/j.tibtech.2016.08.010

Source DB: PubMed Journal: Trends Biotechnol ISSN： 0167-7799 Impact factor: 19.536

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Cited

14 in total

1. Empower C1: Combination of Electrochemistry and Biology to Convert C1 Compounds.

Authors: Franziska Enzmann; Markus Stöckl; Marc Pfitzer; Dirk Holtmann
Journal: Adv Biochem Eng Biotechnol Date: 2022 Impact factor: 2.635

2. Competition between Methanogens and Acetogens in Biocathodes: A Comparison between Potentiostatic and Galvanostatic Control.

Authors: Sam D Molenaar; Pradip Saha; Annemerel R Mol; Tom H J A Sleutels; Annemiek Ter Heijne; Cees J N Buisman
Journal: Int J Mol Sci Date: 2017-01-19 Impact factor: 5.923

Bioelectrochemical Power-to-Gas: State of the Art and Future Perspectives.

1. Empower C1: Combination of Electrochemistry and Biology to Convert C1 Compounds.

2. Competition between Methanogens and Acetogens in Biocathodes: A Comparison between Potentiostatic and Galvanostatic Control.

3. Heat-Treated Stainless Steel Felt as a New Cathode Material in a Methane-Producing Bioelectrochemical System.

Review 4. Methanogens: biochemical background and biotechnological applications.

Review 5. On the Edge of Research and Technological Application: A Critical Review of Electromethanogenesis.

6. Granular Carbon-Based Electrodes as Cathodes in Methane-Producing Bioelectrochemical Systems.

7. Microbial Community and Metabolic Activity in Thiocyanate Degrading Low Temperature Microbial Fuel Cells.

8. Evidence of Spatial Homogeneity in an Electromethanogenic Cathodic Microbial Community.

9. Impact of Carbon Felt Electrode Pretreatment on Anodic Biofilm Composition in Microbial Electrolysis Cells.

10. Ammonium Recovery and Biogas Upgrading in a Tubular Micro-Pilot Microbial Electrolysis Cell (MEC).