In this study, wine lees and waste activated sludge (WAS) were co-fermented for the first time in a 4:1 ratio (COD basis) at 20, 40, 70 and 100 gCOD/L, in batch at 37 °C and pH 7.0. The substrates were successfully converted to caproate (C6) and heptanoate (C7) with a high selectivity (40.2 % at 40 gCOD/L). The rapidly-growing chain-elongating microbiome was enriched inClostridiaceaeandOscillospiraceae, representing together 3.4-8.8 % of the community. Substrate concentrations higher than 40 gCOD/L negatively affected C6 and C7 selectivities and yields, probably due to microbial inhibition by high ethanol concentrations (15.82-22.93 g/L). At 70 and 100 gCOD/L, chain elongation shifted from ethanol-based to lactate-based, with a microbiome enriched in the lactic acid bacteriaRoseburia intestinalis(27.3 %) andEnterococcus hirae(13.8 %). The partial pressure of H(pH) was identified by thermodynamic analysis as a fundamental parameter for controlling ethanol oxidation and improving C6 and C7 selectivities.
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Article Synopsis
- Wine lees, a waste product from winemaking, have untapped potential for producing valuable compounds like carboxylic acids, particularly acetate, due to their high ethanol and low carbohydrate levels.
- In a study, both white and red wine lees were tested for anaerobic acetate production under specific conditions, revealing that white wine lees had similar fermentation success with endogenous microbes as with added inoculum, while red wine lees performed poorly without external help.
- The research showed that acetate consistently made up a large portion of the end products (58-72%), and when red wine lees were co-fermented with activated sludge, additional fatty acids like caproate and heptanoate were produced, indicating strong potential for integrating this process into bi
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