Article ID Journal Published Year Pages File Type
681853 Bioresource Technology 2011 7 Pages PDF
Abstract

The objective of this work was to maximize the digestibility of biological sludge to elucidate the feasibility of a new sludge management strategy to recover good quality sludge for agricultural use. The combined effects of organic loading rates (from 0.7 to 2.8 g VS L−1 d−1) and the degree of disintegration by anaerobic digestion of sonicated activated sludge were discussed, and the thermal and energetic balances were evaluated. Despite low sonication inputs, sludge digestion performance improved in terms of solids degradation and biogas production depending on the soluble organic load. The biogas production by sonicated sludge was higher (up to 30%) with respect to the control. Filterability improved during digestion of sonicated sludge at medium OLR due to a significant abatement of the fines. Thermal balances indicated that sonication may be a proper system to guarantee self-sustaining WAS mesophilic digestion. Nevertheless, thickening is a pre-requisite to achieve a positive energy balance.

► Long semicontinuous anaerobic digestion tests at different OLR and sonication energy. ► Influence of the soluble COD load on digestion performances. ► Sonication works good at low-medium OLR and disintegration degree > 4%. ► Pre-thickening is a key step to attain positive heat and energy balance.

Related Topics
Physical Sciences and Engineering Chemical Engineering Process Chemistry and Technology
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