Sludge Reduction with a Novel Combined Worm-reactor

In China, as a result of economic, environmental and regulation factors, excess sludge treatment and disposal represents a rising challenge for small and mid-scale municipal wastewater treatment plants (WWTPs). Although the presence of worms in aerobic wastewater treatment may lead to substantial sludge reduction, the practical application is still uncontrollable because of unstable worm growth. To overcome unstable worm growth in activated sludge process, a combined worm-reactor, consisting of sections for both free-swimming and sessile worms, was developed to enhance worm growth. This plug flow type of worm-reactor has the sessile worm growing section filled with plastic carriers, and recirculation of sludge from the section for sludge settling was carried out in order to avoid worm washing out. Sludge reduction of treating the discharged excess sludge using this worm-reactor was investigated during 53 days. In the start-up phase the combined worm-reactor was inoculated with Tubificidae. Tubificidae mainly occurred in the carriers and on the bottom of the worm-reactor, however, neither Aeolosoma nor Nais was found in the worm-reactor. Results clearly showed that the average sludge reduction was 48%, and the COD removal was low, about 8%. High NH₄⁺ -N or NO₂⁻ -N concentrations or their combination may limit the growth of Tubificidae. Few PO ₄³⁻-P release into the effluent was observed in the worm-reactor. However, results obtained from this study cannot unequivocally be attributed to the presence of worms because it did not include a control system, and thus much more work will be needed in this concept in the further research.