Collision efficiencies of algae and kaolin in depth filter: The effect of surface properties of particles

Ch-Hpin Huang; Jill Ruhsing Pan; Shuhui Huang

doi:10.1016/S0043-1354(98)00309-1

Collision efficiencies of algae and kaolin in depth filter: The effect of surface properties of particles

Ch-Hpin Huang^*, Jill Ruhsing Pan, Shuhui Huang

^*Corresponding author for this work

Institute of Environmental Engineering

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Column filtration experiments with 2 mm-φ glass beads were conducted to investigate the behavior of colloids during filtration. Algae and kaolin were used as model particles, while the chemical system was altered by changing the electrolyte concentration and pH. The collision efficiencies from the interaction between colloids and the filter medium were calculated with a semi-empirical approach of the single sphere model and clean-bed filtration theory. The experimental results indicate that ionic strength enhance the removal efficiencies for both algae and kaolin particles significantly. The removal efficiency of the filter for algae decreased with the increase in pH for up to pH 6. No significance change was observed beyond pH 6. Removal efficiencies for kaolin decreased with an increase in pH. It is concluded that collision efficiencies are sensitive to ion strength and pH.

Original language	English
Pages (from-to)	1278-1286
Number of pages	9
Journal	Water Research
Volume	33
Issue number	5
DOIs	https://doi.org/10.1016/S0043-1354(98)00309-1
State	Published - 1 Apr 1999

Keywords

Algae
Collision efficiency
Filtration
Kaolin
Zeta potential

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10.1016/S0043-1354(98)00309-1

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title = "Collision efficiencies of algae and kaolin in depth filter: The effect of surface properties of particles",

abstract = "Column filtration experiments with 2 mm-φ glass beads were conducted to investigate the behavior of colloids during filtration. Algae and kaolin were used as model particles, while the chemical system was altered by changing the electrolyte concentration and pH. The collision efficiencies from the interaction between colloids and the filter medium were calculated with a semi-empirical approach of the single sphere model and clean-bed filtration theory. The experimental results indicate that ionic strength enhance the removal efficiencies for both algae and kaolin particles significantly. The removal efficiency of the filter for algae decreased with the increase in pH for up to pH 6. No significance change was observed beyond pH 6. Removal efficiencies for kaolin decreased with an increase in pH. It is concluded that collision efficiencies are sensitive to ion strength and pH.",

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author = "Ch-Hpin Huang and Pan, {Jill Ruhsing} and Shuhui Huang",

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T1 - Collision efficiencies of algae and kaolin in depth filter

T2 - The effect of surface properties of particles

AU - Huang, Ch-Hpin

AU - Pan, Jill Ruhsing

AU - Huang, Shuhui

PY - 1999/4/1

Y1 - 1999/4/1

N2 - Column filtration experiments with 2 mm-φ glass beads were conducted to investigate the behavior of colloids during filtration. Algae and kaolin were used as model particles, while the chemical system was altered by changing the electrolyte concentration and pH. The collision efficiencies from the interaction between colloids and the filter medium were calculated with a semi-empirical approach of the single sphere model and clean-bed filtration theory. The experimental results indicate that ionic strength enhance the removal efficiencies for both algae and kaolin particles significantly. The removal efficiency of the filter for algae decreased with the increase in pH for up to pH 6. No significance change was observed beyond pH 6. Removal efficiencies for kaolin decreased with an increase in pH. It is concluded that collision efficiencies are sensitive to ion strength and pH.

AB - Column filtration experiments with 2 mm-φ glass beads were conducted to investigate the behavior of colloids during filtration. Algae and kaolin were used as model particles, while the chemical system was altered by changing the electrolyte concentration and pH. The collision efficiencies from the interaction between colloids and the filter medium were calculated with a semi-empirical approach of the single sphere model and clean-bed filtration theory. The experimental results indicate that ionic strength enhance the removal efficiencies for both algae and kaolin particles significantly. The removal efficiency of the filter for algae decreased with the increase in pH for up to pH 6. No significance change was observed beyond pH 6. Removal efficiencies for kaolin decreased with an increase in pH. It is concluded that collision efficiencies are sensitive to ion strength and pH.

KW - Algae

KW - Collision efficiency

KW - Filtration

KW - Kaolin

KW - Zeta potential

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Collision efficiencies of algae and kaolin in depth filter: The effect of surface properties of particles

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Keywords

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