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Co-digestion of cheese whey with sewage sludge for caproic acid production: Role of microbiome and polyhydroxyalkanoates potential production

Ruth Iglesias-Iglesias, Ana Portela-Grandío, Laura Treu, Stefano Campanaro, Christian Kennes, María C. Veiga

2021Bioresource Technology47 citationsDOIOpen Access PDF

Abstract

The main aim of this work was to evaluate the efficiency of producing caproic acid and other volatile fatty acids using a co-digestion between cheese whey and sewage sludge in a continuous reactor. The effect of two different feeding regimes (one and two per day) and three hydraulic retention times (HRT) (15, 10 and 6 days) on the organic acids production were studied. The optimal conditions for the process were 10 days HRT, 2 feeding cycles per day, reaching a maximum degree of acidification of 44%. Under these conditions, the most abundant organic acid was caproic acid. The analysis of the microbial community dynamics in the reactor during the HRT changes revealed a microbiome enriched in organisms involved in caproic acid production. Additionally, the production of polyhydroxyalkanoates using the organic acids stream as feeding was verified in a fed-batch experiment obtaining a copolymer formed by hydroxybutyrate, hydroxyvalerate and hydroxyhexanoate.

Topics & Concepts

Caproic AcidPolyhydroxyalkanoatesChemistryFood scienceValeric acidSewage sludgeBioconversionDigestion (alchemy)Pulp and paper industrySewageChromatographyFermentationBiologyEnvironmental scienceBacteriaEnvironmental engineeringButyric acidGeneticsEngineeringbiodegradable polymer synthesis and propertiesMicrobial Metabolic Engineering and BioproductionEnzyme Catalysis and Immobilization
Co-digestion of cheese whey with sewage sludge for caproic acid production: Role of microbiome and polyhydroxyalkanoates potential production | Litcius