Chemical and spectroscopic characterization of organic matter during the anaerobic digestion and successive composting of pig slurry
•Pig waste can act as a valuable resource in terms of nutrients for crops and energy.•Anaerobic digestion of animal wastes produces electric and thermal energy.•We studied OM evolution during AD of pig slurry and successive composting of digestate.•Results enabled to differentiate fresh substrate, d...
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Veröffentlicht in: | Waste management (Elmsford) 2014-03, Vol.34 (3), p.653-660 |
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Sprache: | eng |
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Zusammenfassung: | •Pig waste can act as a valuable resource in terms of nutrients for crops and energy.•Anaerobic digestion of animal wastes produces electric and thermal energy.•We studied OM evolution during AD of pig slurry and successive composting of digestate.•Results enabled to differentiate fresh substrate, digestate and composted digestate.
In this work, anaerobic digestion of pig slurry and successive composting of the digestate after centrifugation were studied by means of chemical analysis, FTIR and fluorescence spectroscopy as excitation–emission matrix (EEM). Chemical analysis highlighted the organic matter transformation occurring during the processes. A decrease of volatile solids and total organic carbon were observed in the digestate with respect to the fresh pig slurry as a consequence of the consumption of sugars, proteins, amino acids and fatty acids used by microorganisms as a C source. Water Extractable Organic Matter (WEOM) was obtained for all samples and fractionated into a hydrophilic and a hydrophobic fraction. The highest WEOM value was found in the pig slurry indicating a high content of labile organic C. The digestate centrifuged and the digestate composted showed lower hydrophilic and higher hydrophobic contents because of the decrease of labile C. Total phenolic content was lower in the digestate with respect to fresh pig slurry sample (36.7%) as a consequence of phenolic compounds degradation. The strong decrease of total reducing sugars in the digestate (76.6%) as compared to pig slurry confirmed that anaerobic process proceed mainly through consumption of sugars which represent a readily available energy source for microbial activity. FTIR spectra of pig slurry showed bands indicative of proteins and carbohydrates. A drop of aliphatic structures and a decrease of polysaccharides was observed after the anaerobic process along with the increase of the peak in the aromatic region. The composted substrate showed an increase of aromatic and a relative decrease of polysaccharides. EEM spectra provided tryptophan:fulvic-like fluorescence ratios which increased from fresh substrate to digestate because of the OM decompostion. Composted substrate presented the lowest ratio due to the humification process. |
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ISSN: | 0956-053X 1879-2456 |
DOI: | 10.1016/j.wasman.2013.12.001 |