A submerged membrane bioreactor (MBR) was applied to treat digested piggery wastewater (DPW). The removal of chemical
oxygen demand (COD), ammonium-nitrogen (NH4-N), two kinds of heavy metals and ten kinds of antibiotics were studied. The
hydraulic retention time (HRT) was gradually shortened from 12 days to 2.7 days, by which correspondingly the volumetric
COD loading rate was increased from 0.4±0.1 to 2.8±0.6 kg /(m3·d) and volumetric NH4-N loading rate was increased from
0.13±0.04 to 0.49±0.07 kg /(m3·d). Results showed that effluent concentrations of COD, copper and zinc remained low and stable
at all loadings. The effluent NH4-N concentration remained below 10 mg/L at a volumetric loading rate of 0.33±0.06 kg NH4-
N/(m3·d), but suddenly rose to 403 mg/L as the loading rate was increased to 0.49±0.07 kg NH4-N/(m3·d). No significant
difference was observed on the removal of sulfamethazine, sulfamethoxazole and ciprofloxacin between different HRTs, but the
decrease in HRT resulted in greatly decreased removal rate of tetracyclines. About 94.0% of tetracycline, 93.2% of
oxytetracycline and 78.6% of chlortetracycline were removed at HRT of 12 ~ 8 days, while the corresponding removal rate was
decreased to 47.6 %, 61.8 % and 40.5 %, respectively, as the HRT was shortened to 2.7 days. The above results suggested that
the performance of a MBR be mainly influenced by HRT and the resultant ammonia loading rate. HRT of 3 - 4 d may be enough
for efficient removal of COD and ammonium from DPW, but insufficient for effective removal of antibiotics.