Effects of different treatments of manure on mitigating methane emissions during storage and preserving the methane potential for anaerobic digestion

Current agricultural practices in regards to storage of manure come with a significant GHG contribution, due, to a big extent, to CH4 emissions. For example, in Denmark, the agricultural sector is responsible for about 11.1 metric tons of CO2 equivalents; only about 0.2 metric tons come directly fro...

Full description

Saved in:
Bibliographic Details
Published in:Journal of environmental management 2023-01, Vol.325, p.116456-116456, Article 116456
Main Authors: Ólafsdóttir, Sonja Sif, Jensen, Claus Dalsgaard, Lymperatou, Anna, Henriksen, Ulrik Birk, Gavala, Hariklia N.
Format: Article
Language:English
Subjects:
Acidification
Manure management
Manure storage
Methane emissions
Methane potential
Pasteurization
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Current agricultural practices in regards to storage of manure come with a significant GHG contribution, due, to a big extent, to CH4 emissions. For example, in Denmark, the agricultural sector is responsible for about 11.1 metric tons of CO2 equivalents; only about 0.2 metric tons come directly from CO2, while 6.0 tons come from CH4. The present study aims at evaluating and comparing two methods based on their effect on suppressing CH4 emissions during storage as well as on preserving and enhancing CH4 yield in a subsequent anaerobic digestion step: the commonly applied acidification with H2SO4 as acidifying agent and thermal treatment at the mild temperatures of 70 and 90 °C (pasteurization). Although both treatments effectively suppressed CH4 emissions during storage, they exhibited a significant difference in preserving and/or enhancing the CH4 potential of manure. Specifically, thermal treatment resulted in 16–35% enhancement of CH4 potential, while acidification resulted in decreasing the CH4 yield by 6–23% compared to non-treated manure. Further investigation showed that storage itself positively affected the CH4 potential of treated manure in a subsequent anaerobic digestion step; this was attributed to microbial activity other than biomethanation during storage. In overall and based on the results obtained regarding suppression of CH4 emissions during storage as well as CH4 potential enhancement, pasteurization at the temperatures tested is a promising alternative to the broadly applied acidification of manure. [Display omitted] •Pasteurization & acidification compared against CH4 emissions reduction.•Pasteurization and acidification suppressed CH4 emissions during storage by 95–99%.•Pasteurization enhanced methane potential during anaerobic digestion by 16–35%.•Acidification diminished methane potential during anaerobic digestion by 6–23%.•Pasteurization is promising alternative to acidification with H2SO4 prior to storage.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2022.116456