STARTUP OF THERMOPHILIC (55-DEGREES-C) UASB REACTORS USING DIFFERENT MESOPHILIC SEED SLUDGES

Performances during startup of three 2.8-litre UASB (upflow anaerobic sludge blanket) reactors operated under thermophilic condition were in vestigated. All reactors were seeded with mesophilic sludges: one with flocculent digester sludge (Reactor-F), another with UASB granules (R eactor-G), and the third with disintegrated granules (Reactor-D). The reactors were operated in parallel at 55 degrees C and 24 hours of ret ention time, using sucrose and milk as substrate at COD (chemical oxyg en demand) loadings up to 10 g-COD/1 . day. Immediately after temperat ure was step-increased from 37 degrees C to 55 degrees C, all reactors encountered sludge washout and deterioration of COD removal efficienc y; however, the impact of temperature increase was more severe on Reac tor-F. Sludge granulation took place in all reactors; first granules b ecame noticeable after 45 days in Reactor-D, and after 90 days in Reac tor-F. Reactor-G and Reactor-D were capable of removing 95% of soluble COD after 75 days, while Reactor-F after 110 days. Throughout this st udy, there was little difference in performance between Reactors G and D. The thermophilic granule were estimated to have a yield of 0.099 g -VSS/g-COD, and a methanogenic activity of 0.71-1.55 g-methane-COD/g-V SS . day, comparable to that of mesophilic granules. Copyright (C) 199 6 IAWQ.