Biological Layer in Household Slow Sand Filters: Characterization and Evaluation of the Impact on Systems Efficiency

Biological Layer in Household Slow Sand Filters: Characterization and Evaluation of the Impact on Systems Efficiency

Schmutzdecke, the biofilm formed on the top of the sand bed in household slow sand filters (HSSF) is a key factor for the filters’ high efficiency in removing particles and microorganisms from water. This paper aims to investigate the extracellular polymeric substances composition (carbohydrates and...

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Veröffentlicht in:Water (Basel) 2022-04, Vol.14 (7), p.1078
Hauptverfasser: Lubarsky, Helen, Fava, Natália de Melo Nasser, Souza Freitas, Bárbara Luíza, Terin, Ulisses Costa, Oliveira, Milina, Lamon, Atônio Wagner, Pichel, Natalia, Byrne, John Anthony, Sabogal-Paz, Lyda Patricia, Fernandez-Ibañez, Pilar
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Bacteria
Biofilms
Carbohydrates
Coliforms
Datasets
Depletion
Dissolved oxygen
Drinking water
E coli
Efficiency
Escherichia coli
Extracellular polymers
Filters
Households
Microorganisms
Oxygen depletion
Pathogens
Proteins
Purification
Rivers
Sand
Sand beds
Sand filters
Scanning electron microscopy
Turbidity
Water
Water purification
Water treatment
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Zusammenfassung:Schmutzdecke, the biofilm formed on the top of the sand bed in household slow sand filters (HSSF) is a key factor for the filters’ high efficiency in removing particles and microorganisms from water. This paper aims to investigate the extracellular polymeric substances composition (carbohydrates and proteins), biomass, dissolved oxygen, and microbial community in two types of HSSFs and identify a correlation between them and their efficiency. A continuous- and an intermittent-HSSF (C-HSSF and I-HSSF) were studied to treat river water for 48 days. Their efficiencies for bacteria (E. coli and total coliforms), turbidity, and apparent color removals were analyzed. Results clearly showed an increase of carbohydrates (from 21.4/22.5 to 101.2/93.9 mg·g−1 for C-/I-HSSF) and proteins (from 34.9 to 217/307.8 mg g−1 for C-/I-HSSF), total solids (from 0.03/
ISSN:2073-4441
2073-4441
DOI:10.3390/w14071078