Evaluation of Mono-Media and Dual Filter Media for Improving Water Quantity and Quality

Mohamed, Manal A.

doi:10.21608/jhiph.2004.182530

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	Evaluation of Mono-Media and Dual Filter Media for Improving Water Quantity and Quality
Article 9, Volume 34, Issue 4, October 2004, Page 861-880
Document Type: Original Article
DOI: 10.21608/jhiph.2004.182530
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Author
Manal A. Mohamed
Environmental Health Department, High Institute of Public Health, Alexandria University, Egypt
Abstract
Water is a unique substance and in the coming decades, there will be increasing competition for water supplies worldwide. Alexandria city has eight water treatment plants with an average daily production of 2 million m³ of drinking water. The most common types of sand filters used in them are Italba deep filter. Increasing rates of filtration by using existing deep sand filter, deep mono-anthracite, and dual sand/anthracite media was studied aiming at increasing plant production without deterioration in water quality. Pilot water treatment plant with three pilot filters [mono-sand, mono-anthracite, and dual sand/anthracite] was used and the applied filtration rates were 8 m/hr [current rate], 12 m/hr, and 15 m/hr. Comparison between mono and dual media at the three rates was evaluated according to performance criteria. These criteria are: Filter effluent turbidity =0.2 NTU, head loss =120 cm, Unit filter run volume [UFRV] ≥400 m³/m², and the percent removal of turbidity and algae. The results revealed that dual filter media [sand/anthracite] achieved the criteria of filter performance at rates of 8, 12, and 15 ml/h at filter runs of 56, 43, and 30 h. Mono-sand and mono-anthracite achieved these criteria after short run time as a result of development of head loss quickly. So, it is recommended to modify an existing mono-sand deep filter into dual media [sand/anthracite] with increasing filtration rates to 12 m/h to get an increase in water quantity with gross production =528 m³/m² instead of 384 m³/m² at 8 m/h by mono-sand and the same water quality with turbidity =0.2 NTU. However, by increasing the filtration rate to 15 m/h, the filtered water turbidity was not affected and UFRV=450 m³/m² but filter run was decreased and may need to fix surface wash system and/or to use filter aid to avoid buildup of slime growth on filter bed.
Keywords
Mono-Media; Dual Filter Media; Water Quantity and Quality


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