Adsorption of NH4 +-N and E. coli onto Mg2+-modified zeolites

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• 作者：Sang-Woo An ; Young-Cheol Jeong ; Hyun-Hee Cho ; Jae-Woo Park
• 关键词：Mg ; modified zeolite ; Natural zeolite ; NH4 + ; N ; E. coli ; Adsorption
• 刊名：Environmental Earth Sciences
• 出版年：2016
• 出版时间：March 2016
• 年：2016
• 卷：75
• 期：5
• 全文大小：2,004 KB
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• 作者单位：Sang-Woo An (1)
  Young-Cheol Jeong (1)
  Hyun-Hee Cho (2)
  Jae-Woo Park (1)
  
  1. Department of Civil and Environmental Engineering, Hanyang University, Seoul, Korea
  2. SD Center, KOLON Water and Energy Co., LTD., 1490-25 Seocho 3-dong, Seocho-gu, Seoul, 137-870, Korea
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：None Assigned
• 出版者：Springer Berlin Heidelberg
• ISSN：1866-6299

文摘

Mg2+-modified zeolites (MMZs) were used for the adsorption of NH₄ +-N and Esherichia coli at different concentrations for a batch experiment. The adsorption characteristics (i.e. kinetics, isotherms, and mechanisms) of NH₄ +-N and E. coli on natural zeolites and MMZs were studied. Simple kinetic models, including pseudo-first-order kinetic models and pseudo-second-order kinetic models, were used to model the adsorption mechanism. Adsorption of NH4+-N and E. coli followed a pseudo-second-order kinetic model with the pseudo-second-order kinetic constants (k ₂ ) increasing with an initial increase in NH₄ +-N and E. coli concentrations. An intraparticle diffusion model was also used to investigate the mechanism of adsorption. From the intraparticle diffusion model results, NH₄ +-N and E. coli adsorption onto natural zeolites and MMZs could be described via film diffusion followed by particle diffusion. Furthermore, film diffusion was the rate-determining step in NH₄ +-N adsorption and particle diffusion was the rate-determining step in E. coli adsorption on natural zeolites and MMZs in this study. The maximum adsorption of NH₄ +-N and E. coli onto MMZs was 7.759 and 0.175 mg/g, respectively. Greater E. coli adsorption onto MMZs was due to the unique surface properties of the material compared with natural zeolites. Electrostatic interactions and hydrophobic attractions simultaneously affected the adsorption of E. coli onto MMZ in this study. Therefore, MMZ can be an efficient adsorbent material for the simultaneous removal of NH₄ +-N and E. coli from carcass leachates.