부산대학교 도서관

Anaerobically digested biosolids (ABD) characteristics that affect dewatering were assessed at three water resource recovery facilities (WRRF) with different handling practices. Dewatering performance at the three sites corresponded to different levels of soluble chemical oxygen demand (COD), ammonia (NH4–N), and mono‐ and divalent cation concentrations in ADB. Capillary suction time (CST) and a modified centrifugal technique were used to determine optimum polymer doses and to assess the impact of handling conditions on dewatering performance. Both techniques indicated that polymer dosing between 15 and 20 kg/dry tonne was optimal for all facilities and that biosolids mixing and pumping did not significantly impact dewaterability. The CST values of anaerobically digested biosolids decreased as temperature increased, but no significant difference was found for either temperature or location of dewatering facilities. Sludge viscosity and rheological properties that vary with temperature appeared to have influenced CST values. Modified centrifugal technique results indicated cake solids were not affected by polymer make‐up water or ADB temperature when emulsion polymer was used. This study shows the value of laboratory testing of biosolids under controlled conditions to identify and correct potential problems in full‐scale operations. Practitioner points: Capillary suction time and a modified centrifugal technique were used to assess the impact of different process‐related and environmental factors on dewatering.Higher concentrations of soluble COD (potentially extracellular polymeric substances ‐ EPS) and low calcium (Ca) in anaerobically digested biosolids align with reduced dewaterability.Cell disruption and break down of floc structures due to storage/mixing and pumping of biosolids did not appear to negatively impact dewatering.Modified centrifugal test results did not provide conclusive evidence of whether dewatering of anaerobically digested biosolids could be significantly impacted by temperature over the range 15–30°C, especially when emulsion polymer is used.This study shows the value of laboratory testing of biosolids under controlled conditions to identify potential problems in the full‐scale operations. [ABSTRACT FROM AUTHOR]