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Volumn 357, Issue 2, 2011, Pages 440-446
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Synthesis, performance, and modeling of immobilized nano-sized magnetite layer for phosphate removal
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Author keywords
Adsorption; Granular activated carbon; Iron oxide; Isotherm; M ssbauer spectroscopy
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Indexed keywords
ACTIVE SITE;
ADSORPTION CAPACITIES;
ADSORPTION PROPERTIES;
BATCH ADSORPTION EXPERIMENTS;
DIFFUSION MECHANISMS;
FERRIC CHLORIDE;
GRANULAR ACTIVATED CARBONS;
HIGH EFFICIENCY;
HOMOGENEOUS LAYERS;
IRON LOADING;
MAGNETITE LAYERS;
MAGNETITE PARTICLES;
MATRIX;
NANO-SIZED;
PHOSPHATE REMOVAL;
RATE DETERMINING STEP;
SSBAUER SPECTROSCOPIES;
SURFACE AREA;
ACTIVATED CARBON;
ADSORPTION;
CHLORINATION;
CHLORINE COMPOUNDS;
GRANULAR MATERIALS;
ISOTHERMS;
MAGNETITE;
MOLYBDENUM OXIDE;
PARTICLES (PARTICULATE MATTER);
IRON OXIDES;
ACTIVATED CARBON;
ADSORBENT;
CHARCOAL;
FERRIC CHLORIDE;
IRON;
MAGNETITE;
OXYGEN;
PHOSPHATE;
ADSORPTION;
ARTICLE;
DIFFUSION;
DIFFUSION COEFFICIENT;
EXPERIMENT;
NANOTECHNOLOGY;
PRIORITY JOURNAL;
SYNTHESIS;
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EID: 79953025962
PISSN: 00219797
EISSN: None
Source Type: Journal
DOI: 10.1016/j.jcis.2011.01.021 Document Type: Article |
Times cited : (88)
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References (32)
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