LAUSR

Abstract Primary sludge from wastewater treatment is of rich organic contents that can be resource for recovery. However, the sludge derived from the chemically enhanced primary sedimentation (CEPS), especially using Al-based coagulants, features a rather low biodegradability and treatability due to the agglomeration of solid matters by the coagulant. In the present study, alkali pretreatments by three chemicals (NaHCO3, Na2CO3 and NaOH) were applied to disintegrate Al-based CEPS sludge (Al-sludge) aggregates and improve its hydrolysis and biodegradability for fermentation and organic recovery. Results showed that alkali pretreatment significantly reduced the Al-sludge particle size and accelerated the release of the enmeshed organics. NaHCO3 exhibited the best pretreatment result. At ambient temperature, the yield of volatile fatty acids (VFAs) of the Al-sludge pretreated by Na2CO3 (initial pH 10) was improved by four times compared to the untreated sludge, resulting from both the improved abiotic and biotic hydrolysis effects. The effect of alkali pretreatment on Al-sludge was found to be mainly attributable to the pH adjustment rather than the alkalinity increase. Illumina MiSeq sequencing revealed that protein-fermenting bacteria Treponema and Bacteroides became dominant during fermentation of the alkali pretreated sludge. By PACl-based CEPS and enhanced sludge acidogenesis, around 17% of organics in municipal wastewater can be recovered, mainly in the form of VFAs, which is significantly greater than 6% by the conventional primary sedimentation and sludge fermentation.