Adsorption of Arsenic on Layered Double Hydroxides: Effect of the Particle Size

This paper describes a study of arsenic(V) adsorption on appropriately conditioned calcined layered double hydroxide (LDH) adsorbents. Conditioning the adsorbent significantly reduced the dissolution previously observed with uncalcined and calcined LDH. The adsorption rates and isotherms have been i...

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Published in	Industrial & engineering chemistry research Vol. 45; no. 13; pp. 4742 - 4751
Main Authors	Yang, Li, Dadwhal, Megha, Shahrivari, Zoya, Ostwal, Mayur, Liu, Paul K. T, Sahimi, Muhammad, Tsotsis, Theodore T
Format	Journal Article
Language	English
Published	Washington, DC American Chemical Society 21.06.2006
Subjects	Adsorption Applied sciences Chemical engineering Exact sciences and technology Adsorption Particle size
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Abstract	This paper describes a study of arsenic(V) adsorption on appropriately conditioned calcined layered double hydroxide (LDH) adsorbents. Conditioning the adsorbent significantly reduced the dissolution previously observed with uncalcined and calcined LDH. The adsorption rates and isotherms have been investigated in batch experiments. As(V) adsorption is shown to follow a Sips-type adsorption isotherm. The As(V) adsorption rate on conditioned LDH increases with decreasing adsorbent particle size; the adsorption capacity of As(V) on conditioned LDH, on the other hand, is independent of the particle size. When a homogeneous surface diffusion model was used to fit the experimental kinetic data, the estimated diffusivity values were shown to depend on the particle size. On the other hand, when a bidisperse pore model, which considers the adsorbent particles to be agglomerates of microparticles with a porous region present between them, is applied to the same data, it predicts an intracrystalline diffusivity, which is fairly invariable with the particle size.
AbstractList	This paper describes a study of arsenic(V) adsorption on appropriately conditioned calcined layered double hydroxide (LDH) adsorbents. Conditioning the adsorbent significantly reduced the dissolution previously observed with uncalcined and calcined LDH. The adsorption rates and isotherms have been investigated in batch experiments. As(V) adsorption is shown to follow a Sips-type adsorption isotherm. The As(V) adsorption rate on conditioned LDH increases with decreasing adsorbent particle size; the adsorption capacity of As(V) on conditioned LDH, on the other hand, is independent of the particle size. When a homogeneous surface diffusion model was used to fit the experimental kinetic data, the estimated diffusivity values were shown to depend on the particle size. On the other hand, when a bidisperse pore model, which considers the adsorbent particles to be agglomerates of microparticles with a porous region present between them, is applied to the same data, it predicts an intracrystalline diffusivity, which is fairly invariable with the particle size.
Author	Liu, Paul K. T Tsotsis, Theodore T Yang, Li Ostwal, Mayur Sahimi, Muhammad Shahrivari, Zoya Dadwhal, Megha
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Title	Adsorption of Arsenic on Layered Double Hydroxides: Effect of the Particle Size
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