RT info:eu-repo/semantics/article
T1 Integrating microbial electrochemical technologies with anaerobic digestion to accelerate propionate degradation
A1 Alonso García, Raúl Marcos
A1 Escapa González, Adrián
A1 Sotres, Ana
A1 Morán Palao, Antonio
A2 Ingenieria Electrica
K1 Bioquímica
K1 Anaerobic digestion
K1 Microbial electrochemical technologies
K1 Propionate
K1 Biogas
K1 2302 Bioquímica
K1 3302.90 Ingeniería Bioquímica
AB [EN] The aim of this study is to evaluate the integration of microbial electrochemical technologies (MET) with anaerobic digestion (AD) to overcome AD limitations caused by propionate accumulation. The study focuses on understanding to what extent the inoculum impacts on the behaviour of the integrated systems (AD-MET) from the perspective of propionate degradation, methane production and microbial population dynamics. Three different inocula were used: two from environmental sources (anaerobic sludge and river sediment) and another one from a pre-enriched electroactive consortium adapted to propionate degradation. Contrary to expectations, the reactor inoculated with the pre-enriched consortium was not able to maintain its initial good performance in the long run, and the bioelectrochemical activity collapsed after three months of operation. On the other hand, the reactor inoculated with anaerobic sludge, although it required a relatively longer time to produce any observable current, was able to maintain an electrogenic activity operation (0.8 A m−2), whilst showcasing the positive contribution of AD-MET integration into tackling propionate accumulation and enhancing methane yield (338 mL gCOD−1). However, it must also be highlighted that from a purely energetic point of view the AD-MET was not favourable.
PB Elsevier
SN 0016-2361
LK https://hdl.handle.net/10612/18114
UL https://hdl.handle.net/10612/18114
NO Alonso, R. M., Escapa, A., Sotres, A., & Morán Álvarez, A. (2020). Integrating microbial electrochemical technologies with anaerobic digestion to accelerate propionate degradation. Fuel, 267. https://doi.org/10.1016/J.FUEL.2020.117158
DS BULERIA. Repositorio Institucional de la Universidad de León
RD 14-may-2024