The inhibitory effects of olive oil mill effluents (OME) on methanogenesis were studied by using p-hydroxybenzoic acid (HBA) and oleic acid (OA) as model compounds for phenolic compounds and Lipids respectively. The addition of HBA (0.3 g 1(-1)') to diluted OME (5.7 g COD 1(-1)) had a negligible effect on methanogenesis in terms of kinetics and final methane yield. Strong inhibition was observed only at high HBA concentrations (6 g 1(-1)). The OA inhibited methane production much more strongly Indeed, 0.35 g 1(-1) of OA were able to double the lag phase for methanogenesis fi om diluted OME. With both compounds, the presence of an easily biodegradable co-substrate (glucose) did not increase the rate of substrate degradation nor methane formation. OME acidogenesis was significantly less sensitive than methanogenesis to the inhibitory effects exerted by OA and HBA, even at relatively high concentrations of the model compounds.
Role of lipids and phenolic compounds in the anaerobic treatment of olive oil mill effluents / Beccari, Mario; G., Carucci; Majone, Mauro; L., Torrisi. - In: ENVIRONMENTAL TECHNOLOGY. - ISSN 0959-3330. - STAMPA. - 20:1(1999), pp. 105-110. [10.1080/09593332008616799]
Role of lipids and phenolic compounds in the anaerobic treatment of olive oil mill effluents
BECCARI, Mario;MAJONE, Mauro;
1999
Abstract
The inhibitory effects of olive oil mill effluents (OME) on methanogenesis were studied by using p-hydroxybenzoic acid (HBA) and oleic acid (OA) as model compounds for phenolic compounds and Lipids respectively. The addition of HBA (0.3 g 1(-1)') to diluted OME (5.7 g COD 1(-1)) had a negligible effect on methanogenesis in terms of kinetics and final methane yield. Strong inhibition was observed only at high HBA concentrations (6 g 1(-1)). The OA inhibited methane production much more strongly Indeed, 0.35 g 1(-1) of OA were able to double the lag phase for methanogenesis fi om diluted OME. With both compounds, the presence of an easily biodegradable co-substrate (glucose) did not increase the rate of substrate degradation nor methane formation. OME acidogenesis was significantly less sensitive than methanogenesis to the inhibitory effects exerted by OA and HBA, even at relatively high concentrations of the model compounds.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
