Uranium(VI) remediation from aqueous environment using impregnated cellulose beads

Journal of Environmental Radioactivity

Volumn 136, Issue , 2014, Pages 22-29

  Rule, Prashant ^a   Balasubramanian, K ^a   Gonte, Renuka R ^a  

^a DEFENCE INSTITUTE OF ADVANCED TECHNOLOGY   (India)

Author keywords

Adsorption; Impregnated cellulose; Kinetics; Uranium

Indexed keywords

ADSORBENTS; ADSORPTION; CELLULOSE; ENZYME KINETICS; METAL IONS; THERMODYNAMICS; URANIUM; URANIUM COMPOUNDS; WATER POLLUTION;

ADSORPTION CAPACITIES; ADSORPTION EFFICIENCY; DILUTE AMMONIA SOLUTION; INTRA-PARTICLE DIFFUSION; METAL ION CONCENTRATION; PH DEPENDENT ADSORPTIONS; REMOVAL AND RECOVERIES; SECOND ORDER KINETICS;

MOLECULAR BIOLOGY;

ADSORBENT; AMMONIA; CELLULOSE; FERRIC OXIDE; URANIUM; NANOSPHERE; WATER POLLUTANT;

ADSORPTION; AMMONIA; CATION; CELLULOSE; IRON OXIDE; NUMERICAL MODEL; PH; RADIOACTIVE POLLUTION; REACTION KINETICS; REMEDIATION; THERMODYNAMICS; URANIUM;

ADSORPTION; ARTICLE; BIOREMEDIATION; PH; POLYMERIZATION; THERMODYNAMICS; CHEMISTRY; ECOSYSTEM RESTORATION; KINETICS; PREVENTION AND CONTROL; PROCEDURES; THEORETICAL MODEL; WATER POLLUTANT; WATER POLLUTION;

ADSORPTION; CELLULOSE; ENVIRONMENTAL RESTORATION AND REMEDIATION; KINETICS; MODELS, THEORETICAL; NANOSPHERES; THERMODYNAMICS; URANIUM; WATER POLLUTANTS, RADIOACTIVE; WATER POLLUTION, RADIOACTIVE;

EID: 84901334998     PISSN: 0265931X     EISSN: 18791700     Source Type: Journal    
DOI: 10.1016/j.jenvrad.2014.05.004     Document Type: Article

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