Single medium microbial fuel cell: Stainless steel and graphite electrode materials select bacterial communities resulting in opposite electrocatalytic activities

0 avis

Single medium microbial fuel cell: Stainless steel and graphite electrode materials select bacterial communities resulting in opposite electrocatalytic activities

Archive ouverte

Erable, Benjamin | Byrne, N. | Etcheverry, Luc | Achouak, Wafa | Bergel, Alain

International audience. A graphite electrode and a stainless steel electrode immersed in exactly the same medium and polarised at the same potential were colonised by different microbial biofilms. This difference in electroactive microbial population leads stainless steel and graphite to become a microbial cathode and a microbial anode respectively. The results demonstrated that the electrode material can drive the electrocatalytic property of the biofilm opening perspectives for designing single medium MFC. This new discovery led to of the first demonstration of a “single medium MFC.” Such a single medium MFC designed with a graphite anode connected to a stainless steel cathode, both buried in marine sediments, produced 280 mA m−2 at a voltage of 0.3 V for more than 2 weeks.

Langue: en

Indexation

Consulter en ligne

Consulter le document

Suggestions

Du même auteur

From microbial fuel cell (MFC) to microbial electrochemical snorkel (MES): maximizing chemical oxygen demand (COD) removal from wastewater

Archive ouverte | Erable, Benjamin | CCSD

International audience. The paper introduces the concept of the microbial electrochemical snorkel (MES), a simplified design of a “short-circuited” microbial fuel cell (MFC). The MES cannot provide current but it is...

Regeneration of a bio-electrode of a bio-electrochemical device - device and associated method. Régénération d'une bio-électrode d'un dispositif bio-électrochimique - dispositif et procédé associé

Archive ouverte | Bergel, Alain | CCSD

A bio-electrochemical device comprising at least one bio-anode immersed in an electrolyte containing anodic electroactive microorganisms characterised in that it comprises a diffuser (6), connected to a gas source, and arranged in...

Oxygen supply management to intensify wastewater treatment by a microbial electrochemical snorkel

Archive ouverte | Hoareau, Morgane | CCSD

International audience. The microbial electrochemical snorkel (MES) is a low-cost, low-maintenance technology that could considerably reduce wastewater treatment costs by reducing the need for aeration. An MES is a ...

Chargement des enrichissements...

Syracuse