Kinetics and thermodynamics of Cu(II) biosorption on to a novel magnetic chitosan composite bead

Environmental Technology (United Kingdom)

Volumn 33, Issue 20, 2012, Pages 2345-2351

  Chen, Yuwei ^a   Hu, Jun ^a   Wang, Jianlong ^a  

^a TSINGHUA UNIVERSITY   (China)

Author keywords

biosorbent; biosorption; copper; isotherm; magnetic chitosan

Indexed keywords

BIOSORPTION; CHITOSAN; COPPER; DESORPTION; ENZYME IMMOBILIZATION; ISOTHERMS; METAL IONS;

BIOSORBENTS; CHITOSAN BEADS; COMPOSITE BEADS; ENTHALPY CHANGE; ENTROPY CHANGES; FREUNDLICH; GIBBS FREE ENERGY CHANGES; INITIAL PH; INTRA-PARTICLE DIFFUSION; KINETICS AND THERMODYNAMICS; LANGMUIRS; MAGNETIC CHITOSAN; METAL ION CONCENTRATION; RATE-LIMITING STEPS; REMOVAL OF CU IONS; SORPTION CAPACITIES; SORPTION PROCESS; THERMODYNAMIC PARAMETER;

ADSORPTION;

ADSORBENT; CHITOSAN; CUPRIC ION; MAGNETITE; METAL ION;

AQUEOUS SOLUTION; BIOACTIVITY; CATION; CHITIN; COMPOSITE; CONCENTRATION (COMPOSITION); COPPER; EDTA; ENTHALPY; ENTROPY; IRON OXIDE; ISOTHERM; PARAMETERIZATION; POLLUTANT REMOVAL; REACTION KINETICS; SORPTION; TEMPERATURE EFFECT; THERMODYNAMICS;

AQUEOUS SOLUTION; ARTICLE; BIOSORPTION; COMPOSITE MATERIAL; CONCENTRATION (PARAMETERS); CONTROLLED STUDY; DESORPTION; DIFFUSION; ENERGY; ENTHALPY; ENTROPY; HEAVY METAL REMOVAL; ISOTHERM; MAGNETIC SEPARATION; PH; TEMPERATURE; THERMODYNAMICS;

EID: 84870052767     PISSN: 09593330     EISSN: 1479487X     Source Type: Journal    
DOI: 10.1080/09593330.2012.668940     Document Type: Article

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