Towards a Sustainable Water Supply: Humic Acid Removal Employing Coagulation and Tangential Cross Flow Microfiltration

Towards a Sustainable Water Supply: Humic Acid Removal Employing Coagulation and Tangential Cross Flow Microfiltration

Synthetic solutions assimilating irrigated groundwater containing varying concentrations of humic acid (10 mg/L), saline (10–35 g/L) and metal agents (5–10 mg/L), were processed through a ceramic microfiltration membrane (Sterilox Ltd., 0.5 μm). This was done with enrichment schemes using polymeric...

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Veröffentlicht in:Water (Basel) 2019-10, Vol.11 (10), p.2093
Hauptverfasser: Hakami, Mohammed Wali, Alkhudhiri, Abdullah, Zacharof, Myrto-Panagiota, Hilal, Nidal
Format: Artikel
Sprache:eng
Schlagworte:
Amino acids
Coagulants
Coagulation
Control
Cross flow
Drinking water
Enrichment
Environmental aspects
Forecasts and trends
Groundwater
Groundwater irrigation
Heavy metals
Humic acid
Humic acids
Membranes
Metallic elements
Microfiltration
Molecular weight
Nitrates
Pollutant removal
Pollutants
Pore size
Purification
Saline waters
United Kingdom
Water
Water supply
Water treatment
Water, Underground
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Zusammenfassung:Synthetic solutions assimilating irrigated groundwater containing varying concentrations of humic acid (10 mg/L), saline (10–35 g/L) and metal agents (5–10 mg/L), were processed through a ceramic microfiltration membrane (Sterilox Ltd., 0.5 μm). This was done with enrichment schemes using polymeric coagulants (PDADMAC) applied to enhance the removal of the above-mentioned pollutants. The study was conducted with the scope of investigating the feasibility of sequential and hybrid coagulation and microfiltration as a method of choice for drinking water treatment. Membrane microfiltration is easily scalable into various arrangements, allowing versatility in operation and enrichment schemes, with a relatively lower cost which other treatment practices do not allow. The highest humic acid removal, 91.11% was achieved with hybrid coagulation.
ISSN:2073-4441
2073-4441
DOI:10.3390/w11102093