Evaluating the Performance of Carbon in Water Filters Preparation from Porcelanites and Studying the Properties of Water Passing through a Filter

Author(s): Enas M. Hadi*, Safa L. Jasim

Journal Name: Nanoscience & Nanotechnology-Asia

Volume 10 , Issue 6 , 2020

Become EABM
Become Reviewer
Call for Editor

Graphical Abstract:


Background: In this study, ceramic water filter was prepared from Iraqi Local porcelanite and White Kaolin with the ratio of 10% as a binder with natural additives “wheat flakes.” Ratios 5, 10, 15, 20, 25, and 30%.

Methods: These materials are formed then fairing at 1200°C. The filters are environmentally familiar materials and harmless. Carbon was included to some prepared filters by thermally being treated at 950°C in the carbonation box to improve the performance and efficiency. After the filter is prepared, an assessment was carried out (apparent porosity, water absorption, permeability, and apparent density).

Results: From the direct results, the apparent porosity, water absorption, and permeability were increased tremendously along with the increasing of the W.F., and the apparent density is typically decreased for the adaptive filter with or without carbon. The flowing water promptly passing through the adaptive filters was carefully evaluated by testes such as TSS, TDS, PH, and turbidity. The result was TSS in water, 6 mg/l, TSS in filter without carbon. 1 mg/l, TSS for filter with carbon was decreased to 0 mg/L. Turbidity (NTU) for water 1.9 NTU, Turbidity for filter without carbon was 0.71NUT, and Turbidity for the filters with carbon was decreased to 0.63 NUT. PH for water was 7.75 PH for filter without carbon was 7.68, PH for filter with carbon was decreased to 7.33.

Conclusion: Filters with carbon are better than the filter without carbon for removing potential contaminants from the filter without carbon. Desired results were properly obtained within the Iraqi standard for drinking water.

Keywords: Water Filter, filter with carbon, porcelanites, wheat flakes, carbonation, turbidity, total suspended solids, turbidity.

Rights & PermissionsPrintExport Cite as

Article Details

Year: 2020
Published on: 30 November, 2020
Page: [876 - 883]
Pages: 8
DOI: 10.2174/2210681209666190809102004
Price: $25

Article Metrics

PDF: 8