An experimental study was carried out to compare the performance of selecte
d anaerobic high rate reactors operated simultaneously at 37 degrees C. The
three reactors, namely upflow anaerobic sludge bed reactor (UASB), hybrid
of UASB reactor and anaerobic filter (anaerobic hybrid reactor - AHR) and a
naerobic baffled reactor (ABR), were inoculated with the anaerobic digested
sludge from municipal wastewater treatment plant and tested with synthetic
wastewater. This wastewater contained sodium acetate and glucose with bala
nced nutrients and trace elements (COD 6000 mg . 1(-1)). Organic loading ra
te (B-nu) was increased gradually from an initial 0.5 kg m(-3) . d(-1) to 1
5 kg m(-3) . d(-1) in all the reactors. From the comparison of the reactors
' performance, the lowest biomass wash-out resulted from ABR. In the UASB,
significant biomass wash-out was observed at the B-upsilon 6 kg . m(-3) . d
(-1), and in the AHR at the B-nu 12 kg . m(-3) . d(-1). The demand of sodiu
m bicarbonate for pH maintenance in ABR was two times higher as for UASB an
d AHR. The efficiency of COD removal was comparable for all three reactors
- 80-90%. A faster biomass granulation was observed in the ABR than in the
other two reactors. This fact is explained by the kinetic selection of fila
mentous bacteria of the Methanotrix sp. under a high (over 1.5 g . 1(-1)) a
cetate concentration.