Multicomponent mass transport model for the sorption of metal ions on bone char

Danny C.K. Ko; John F. Porter; Gordon McKay

doi:10.1002/aic.10186

Multicomponent mass transport model for the sorption of metal ions on bone char

Danny C.K. Ko, John F. Porter, Gordon McKay^*

^*Corresponding author for this work

Hong Kong University of Science and Technology

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

9 Citations (Scopus)

Abstract

The sorption of binary mixtures of copper/cadmium and copper/zinc ions onto bone char was studied in fixed beds. The effects of solution flow rate, initial dye concentration, and bone char particle size range were investigated. A mass transport model based on film-surface diffusion and the IAS model for the equilibrium relationship was used to develop theoretical fixed-bed breakthrough curves. The model incorporates the Sips isotherm for the first time in fixed-bed predictions, since this isotherm gives an excellent correlation of the experimental equilibrium data. The model was used to determine the optimum surface diffusivities as 7.37 X 10^-10 and 2.73 X 10^-9 cm²/s for copper and cadmium in the Cu/Cd system; and 1.61 X 10 ^-9 and 2.43 X 10^-9 cm²/s for copper and zinc in the Cu/Zn system.

Original language	English
Pages (from-to)	2130-2141
Number of pages	12
Journal	AIChE Journal
Volume	50
Issue number	9
DOIs	https://doi.org/10.1002/aic.10186
Publication status	Published - Sept 2004
Externally published	Yes

Keywords

Adsorption
Cadmium
Copper
Fixed bed
Surface diffusion
Zinc

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title = "Multicomponent mass transport model for the sorption of metal ions on bone char",

abstract = "The sorption of binary mixtures of copper/cadmium and copper/zinc ions onto bone char was studied in fixed beds. The effects of solution flow rate, initial dye concentration, and bone char particle size range were investigated. A mass transport model based on film-surface diffusion and the IAS model for the equilibrium relationship was used to develop theoretical fixed-bed breakthrough curves. The model incorporates the Sips isotherm for the first time in fixed-bed predictions, since this isotherm gives an excellent correlation of the experimental equilibrium data. The model was used to determine the optimum surface diffusivities as 7.37 X 10-10 and 2.73 X 10-9 cm2/s for copper and cadmium in the Cu/Cd system; and 1.61 X 10 -9 and 2.43 X 10-9 cm2/s for copper and zinc in the Cu/Zn system.",

keywords = "Adsorption, Cadmium, Copper, Fixed bed, Surface diffusion, Zinc",

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T1 - Multicomponent mass transport model for the sorption of metal ions on bone char

AU - Ko, Danny C.K.

AU - Porter, John F.

AU - McKay, Gordon

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N2 - The sorption of binary mixtures of copper/cadmium and copper/zinc ions onto bone char was studied in fixed beds. The effects of solution flow rate, initial dye concentration, and bone char particle size range were investigated. A mass transport model based on film-surface diffusion and the IAS model for the equilibrium relationship was used to develop theoretical fixed-bed breakthrough curves. The model incorporates the Sips isotherm for the first time in fixed-bed predictions, since this isotherm gives an excellent correlation of the experimental equilibrium data. The model was used to determine the optimum surface diffusivities as 7.37 X 10-10 and 2.73 X 10-9 cm2/s for copper and cadmium in the Cu/Cd system; and 1.61 X 10 -9 and 2.43 X 10-9 cm2/s for copper and zinc in the Cu/Zn system.

AB - The sorption of binary mixtures of copper/cadmium and copper/zinc ions onto bone char was studied in fixed beds. The effects of solution flow rate, initial dye concentration, and bone char particle size range were investigated. A mass transport model based on film-surface diffusion and the IAS model for the equilibrium relationship was used to develop theoretical fixed-bed breakthrough curves. The model incorporates the Sips isotherm for the first time in fixed-bed predictions, since this isotherm gives an excellent correlation of the experimental equilibrium data. The model was used to determine the optimum surface diffusivities as 7.37 X 10-10 and 2.73 X 10-9 cm2/s for copper and cadmium in the Cu/Cd system; and 1.61 X 10 -9 and 2.43 X 10-9 cm2/s for copper and zinc in the Cu/Zn system.

KW - Adsorption

KW - Cadmium

KW - Copper

KW - Fixed bed

KW - Surface diffusion

KW - Zinc

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ER -

Multicomponent mass transport model for the sorption of metal ions on bone char

Abstract

Keywords

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