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Effects of filtration temperature, humic acid level and alum dose on cryptosporidium sized particle breakthrough.

Xu, GR; Fitzpatrick, CS; Deng, LY; (2006) Effects of filtration temperature, humic acid level and alum dose on cryptosporidium sized particle breakthrough. Water Sci Technol , 54 (11-12) 353 - 361.

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Abstract

Recent Cryptosporidium outbreaks have highlighted concerns about filter efficiency and especially particle breakthrough. Understanding the causes of breakthrough is essential, as the parasite cannot be destroyed by conventional disinfection with chlorine. Particle breakthrough depends on many factors. This research aims to investigate the influence of temperature, humic acid (HA) level and chemical dosing on particle breakthrough in filtration. A series of temperatures were set at 5 degrees C, 15 degrees C and 25 degrees C; humic acid level was 5 mg L(-1). Each was combined with a series of Al doses. A laser particle counter was used to assess the particle breakthrough online. Turbidity, zeta potential, and UV254 absorption were measured before and after filtration. The results showed that particle breakthrough was influenced significantly by temperature, humic acid and dosing. Particle breakthrough occurred earlier at lower temperature, while at higher temperature it was reduced at the same coagulant dose. With coagulants, even at low dose, particle breakthrough was significantly reduced. With HA 5 mg L(-1), particle breakthrough was earlier and the amount was much larger than without HA even at high temperature. There was an optimal dose in filtration and it was well correlated with zeta potential.

Type:Article
Title:Effects of filtration temperature, humic acid level and alum dose on cryptosporidium sized particle breakthrough.
Location:England
Language:English
Keywords:Adsorption, Alum Compounds, Animals, China, Cryptosporidium, Filtration, Humic Substances, Kinetics, Nephelometry and Turbidimetry, Organic Chemicals, Particle Size, Temperature, Thermodynamics, Ultraviolet Rays
UCL classification:UCL > School of BEAMS > Faculty of Engineering Science > Civil, Environmental and Geomatic Engineering

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