TY - JOUR
T1 - Bioelectrochemical Power-to-Gas
T2 - State of the Art and Future Perspectives
AU - Geppert, Florian
AU - Liu, Dandan
AU - van Eerten-Jansen, Mieke
AU - Weidner, Eckhard
AU - Buisman, Cees
AU - ter Heijne, Annemiek
PY - 2016
Y1 - 2016
N2 - 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.
AB - 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.
KW - Biocathode
KW - Bioelectrochemical power-to-gas
KW - Bioelectrochemical systems
KW - Methane
KW - Methanogenic archaea
U2 - 10.1016/j.tibtech.2016.08.010
DO - 10.1016/j.tibtech.2016.08.010
M3 - Article
AN - SCOPUS:84992411254
SN - 0167-7799
VL - 34
SP - 879
EP - 894
JO - Trends in Biotechnology
JF - Trends in Biotechnology
IS - 11
ER -