Low-temperature anaerobic digestion for wastewater treatment

Rory M. McKeown; Dermot Hughes; Gavin Collins; Thérèse Mahony; Vincent O'Flaherty

doi:10.1016/j.copbio.2011.11.025

Low-temperature anaerobic digestion for wastewater treatment

Rory M. McKeown
, Dermot Hughes
, Gavin Collins
, Thérèse Mahony
, Vincent O'Flaherty

University of Galway

Research output: Contribution to a Journal (Peer & Non Peer) › Review article › peer-review

112 Citations (Scopus)

Abstract

Methanogenesis is an important biogeochemical process for the degradation of organic matter within cold environments, and is associated with the release of the potent greenhouse gas, methane. Cold methanogenesis has been harnessed, in engineered systems, as low-temperature anaerobic digestion (LTAD) for wastewater treatment and bioenergy generation. LTAD represents a nascent wastewater treatment biotechnology, which offers an attractive alternative to conventional aerobic and anaerobic processes. Successful, high-rate, LTAD of sewage and industrial wastewaters (e.g. from the brewery, food-processing and pharmaceutical sectors), with concomitant biogas generation, has been demonstrated at laboratory-scale and pilot-scale. A holistic, polyphasic approach, which integrates bioprocess, physiological and molecular biological datasets has been critical to the development of the LTAD concept.

Original language	English
Pages (from-to)	444-451
Number of pages	8
Journal	Current Opinion in Biotechnology
Volume	23
Issue number	3
DOIs	https://doi.org/10.1016/j.copbio.2011.11.025
Publication status	Published - Jun 2012

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10.1016/j.copbio.2011.11.025

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title = "Low-temperature anaerobic digestion for wastewater treatment",

abstract = "Methanogenesis is an important biogeochemical process for the degradation of organic matter within cold environments, and is associated with the release of the potent greenhouse gas, methane. Cold methanogenesis has been harnessed, in engineered systems, as low-temperature anaerobic digestion (LTAD) for wastewater treatment and bioenergy generation. LTAD represents a nascent wastewater treatment biotechnology, which offers an attractive alternative to conventional aerobic and anaerobic processes. Successful, high-rate, LTAD of sewage and industrial wastewaters (e.g. from the brewery, food-processing and pharmaceutical sectors), with concomitant biogas generation, has been demonstrated at laboratory-scale and pilot-scale. A holistic, polyphasic approach, which integrates bioprocess, physiological and molecular biological datasets has been critical to the development of the LTAD concept.",

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T1 - Low-temperature anaerobic digestion for wastewater treatment

AU - McKeown, Rory M.

AU - Hughes, Dermot

AU - Collins, Gavin

AU - Mahony, Thérèse

AU - O'Flaherty, Vincent

PY - 2012/6

Y1 - 2012/6

N2 - Methanogenesis is an important biogeochemical process for the degradation of organic matter within cold environments, and is associated with the release of the potent greenhouse gas, methane. Cold methanogenesis has been harnessed, in engineered systems, as low-temperature anaerobic digestion (LTAD) for wastewater treatment and bioenergy generation. LTAD represents a nascent wastewater treatment biotechnology, which offers an attractive alternative to conventional aerobic and anaerobic processes. Successful, high-rate, LTAD of sewage and industrial wastewaters (e.g. from the brewery, food-processing and pharmaceutical sectors), with concomitant biogas generation, has been demonstrated at laboratory-scale and pilot-scale. A holistic, polyphasic approach, which integrates bioprocess, physiological and molecular biological datasets has been critical to the development of the LTAD concept.

AB - Methanogenesis is an important biogeochemical process for the degradation of organic matter within cold environments, and is associated with the release of the potent greenhouse gas, methane. Cold methanogenesis has been harnessed, in engineered systems, as low-temperature anaerobic digestion (LTAD) for wastewater treatment and bioenergy generation. LTAD represents a nascent wastewater treatment biotechnology, which offers an attractive alternative to conventional aerobic and anaerobic processes. Successful, high-rate, LTAD of sewage and industrial wastewaters (e.g. from the brewery, food-processing and pharmaceutical sectors), with concomitant biogas generation, has been demonstrated at laboratory-scale and pilot-scale. A holistic, polyphasic approach, which integrates bioprocess, physiological and molecular biological datasets has been critical to the development of the LTAD concept.

UR - https://www.scopus.com/pages/publications/84861989107

U2 - 10.1016/j.copbio.2011.11.025

DO - 10.1016/j.copbio.2011.11.025

M3 - Review article

SN - 0958-1669

VL - 23

SP - 444

EP - 451

JO - Current Opinion in Biotechnology

JF - Current Opinion in Biotechnology

IS - 3

ER -

Low-temperature anaerobic digestion for wastewater treatment

Abstract

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