CLAY COMPOSITE WATER FILTERS: THE CASE OF FLUORIDE, NITRITE AND Escherichia coli REMOVAL
Inorganic ceramic materials is receiving more attention in recent times due to their unique characteristics which include
different pore structures, hydrophilic surfaces, high chemical, thermal and mechanical stabilities that offer avenues for application
in water treatment. In the present work, cost-effective clay ceramic water filters of different designs were developed from clay (50,
60, and 70) %, sawdust (15, 20, 25, and 35) %, grog (5, 10 and 15)% ratios plus 5% bone char by volume and sintered at temperature
of 950ºC for 6 hrs. For the flow rate, fluoride and nitrite tests synthetic waters were used, while for Escherichia coli removal
efficiency test of the filter diluted wastewater sample collected by purposive sampling methods from Modjo River was used. The
analysis of the optimal performing sintered filter by X-ray diffraction revealed the existence of mixed phases such as quartz, mulite
and ilite. The surface functional group analysis by infrared spectroscopy showed the presence of strong bands at 3696 cm-1, 3622
cm-1, 3450 cm-1 of hydroxyl linkages. Field emission scanning electron microscopy of fractured filter surfaces with better
performance showed the formation of interconnected porous microstructure materials. The ceramic water filter developed from 50%
clay, 15% grog, 35% sawdust, and 5% bone char, (C950-50-35-15), characterized with total porosity 36.33±0.05%, displayed flow
rate 1.91±0.55L/h and E. coli, nitrite, and fluoride removal efficiencies of 99.91±0.09%, 76.00±0.22%, and 96.8±0.41%
respectively.