MANAV DEMİR, Neslihan Yildiz Technical University - Faculty of Civil Engineering - Department of Environmental Engineering, Turkey , ATCI, Elif Burcu Yildiz Technical University - Faculty of Civil Engineering - Department of Environmental Engineering, Turkey , DEMİR, Selami Yildiz Technical University - Faculty of Civil Engineering - Department of Environmental Engineering, Turkey

EFFECTS OF VARYING INLET IRON AND MANGANESE CONCENTRATIONS ON SLOW SAND FILTER PERFORMANCE

41732

In this study a laboratory-scale slow sand filter (SSF) is used for removal of iron and manganese and the effects of various inlet concentrations on removal efficiency were investigated. SSF was operated at a filtration rate of 0.2 m.h^-1 with two different synthetic inlet waters (Run1 and Run2). Iron and manganese concentrations in two runs were 1.09±0.13mg.L^-1–1.06±0.10 mg.L^-1 for Run1 and 2.02±0.15 mg.L^-1– 2.10±0.14 mg.L^-1 for Run2. In Run1, the removal efficiencies of 96.3±2.48%, 92.3±6.1%, 92.6±5.7%, and 55.3±8.3% were obtained for turbidity, iron, manganese and total organic carbon (TOC), respectively. In Run2, on the other hand, the removal efficiencies were obtained as 97.9±1.3%, 93.1±8.1%, 94.4±5.8%, and 55.5±6.8%, respectively. Results suggested that the SSF was the most efficient in turbidity removal at a filtration rate of 0.2 m.h^-1. Sequence analyses of DGGE bands from Run1 and Run2 were also performed and results indicated that a range of bacteria were present, with 16S rRNA gene sequences similar to groups such as Gallionella, Leptothrix, Crenothrix, and an uncharacterized environmental clone.

505

Slow sand filter , iron , manganese removal , microbial community , schmutzdecke.

Sigma Journal Of Engineering and Natural Sciences

515