A scalable, rotating disc bioelectrochemical reactor (RDBER) suitable for the cultivation of both cathodic and anodic biofilms

This study discusses the construction and operation of a membrane-less bioelectrochemical reactor that employs rotating working electrodes with a surface area of up to 1 m2. As a proof-of-principle for an aerobic microbial electrosynthesis process, Kyrpidia spormannii was cultivated in the reactor....

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Bibliographic Details
Published in:Bioresource technology reports 2023-02, Vol.21, p.101357, Article 101357
Main Authors: Hackbarth, Max, Gescher, Johannes, Horn, Harald, Reiner, Johannes Eberhard
Format: Article
Language:English
Subjects:
Kyrpidia spormannii
Microbial electrolysis cell
Pure culture microbial electrosynthesis
Rotating biological contactor
Rotating disc bioelectrochemical reactor
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Summary:This study discusses the construction and operation of a membrane-less bioelectrochemical reactor that employs rotating working electrodes with a surface area of up to 1 m2. As a proof-of-principle for an aerobic microbial electrosynthesis process, Kyrpidia spormannii was cultivated in the reactor. Optical coherence tomography was used to examine the spatial distribution of the cathodic biofilm. After 24 days 87 % of the cathode surface was covered with biofilm that was characterized by a radial increase in its biovolume towards the circumcenter of the electrodes reaching up to 92.13 μm3 μm−2. To demonstrate the versatility of the system, we further operated the reactor as a microbial electrolysis cell employing a co-culture of Shewanella oneidensis and Geobacter sulfurreducens. Anodic current densities of up to 130 μA cm−2 were measured during these batch experiments. This resulted in a maximum production rate of 0.43 L of pure hydrogen per liter reactor volume and day. [Display omitted] •Construction of a 10 L membrane-less, pressurizable bioelectrochemical reactor•Rotating working electrodes with up to 1 m2 electrode surface•Electroautotrophic cultivation and quantification of K. spormannii biofilms•Initial cell density crucial for successful K. spormannii biofilm formation•Anodic operation as MEC with Shewanella/Geobacter coculture
ISSN:2589-014X
2589-014X
DOI:10.1016/j.biteb.2023.101357