Jun-Boum Park scite author profile

Steel-making slag was investigated as reactive material for removal of cadmium in coastal area. Batch experiments of the sorption isotherm experiment and kinetic sorption experiment were performed. Result of sorption isotherm was more adequately described by Langmuir model than Freundlich model and theoretical maximum capacity (β) of cadmium onto steel-making slag was found. Results of kinetic sorption experiments were evaluated by pseudo second order model to investigate sorption characteristics of cadmium onto steel-making slag. Results showed that the equilibrium sorption amount of cadmium (q e ) increased and the rate constant (k 2 ) and initial sorption rate (h) decreased as the initial cadmium concentration increased. The q e with simulated sea water was similar to that with deionized water and k 2 and h with simulated sea water was lower than those with deionized water. Results of kinetic experiments could be used to predict the result from sorption isotherm, since equilibrium sorption amounts calculated by pseudo second order model generally agreed with those measured from sorption isotherm. The reaction time for the target removal rate could be calculated by the pseudo second order model using kinetic sorption tests results.

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Erratum to: Application of a newly developed column test device to analyze seawater transport in sandy soils

Dong

Kim

Woo

et al. 2015

Environ Earth Sci

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Jun-Boum Park

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Assessment of the Sorption Characteristics of Cadmium onto Steel-making Slag in Simulated Sea Water Using Batch Experiment

Erratum to: Application of a newly developed column test device to analyze seawater transport in sandy soils

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