Electrodialysis with bipolar membrane for regeneration of a spent activated carbon

Journal of Hazardous Materials

Volumn 170, Issue 1, 2009, Pages 197-202

  Drouiche, N ^a,b   Grib, H ^b   Abdi, N ^b   Lounici, H ^b   Pauss, A ^c   Mameri, N ^c  

^a L'Unite de Developpement de la Technologie du Silicium   (Algeria)

^b ECOLE NATIONALE POLYTECHNIQUE   (Algeria)

^c UNIVERSITÉ DE TECHNOLOGIE DE COMPIÈGNE   (France)

Author keywords

Activated carbon; Adsorption; Electrochemical properties; Hydrogen sulphide; Regeneration

Indexed keywords

ANION EXCHANGE MEMBRANE; BIPOLAR MEMBRANES; CHEMICAL PRODUCTS; DESULPHURIZATION; EXPERIMENTAL PARAMETERS; GRANULAR ADSORBENT; HYDROGEN SULPHIDE; OPTIMUM CONDITIONS; REGENERATION; SPENT ACTIVATED CARBON; TREATMENT METHODS;

ADSORPTION; CHARCOAL; DESULFURIZATION; ELECTROCHEMICAL PROPERTIES; ELECTRODIALYSIS; HYDROGEN; HYDROGEN SULFIDE;

ACTIVATED CARBON;

ACTIVATED CARBON; HYDROGEN SULFIDE; REAGENT;

ACTIVATED CARBON; ADSORPTION; ELECTROCHEMICAL METHOD; EXTRACTION METHOD; HYDROGEN SULFIDE; ION EXCHANGE; MEMBRANE; REGENERATION;

ADSORPTION; ANALYTICAL PARAMETERS; ANION EXCHANGE; ARTICLE; CATION EXCHANGE; CONTROLLED STUDY; DESULFURIZATION; ELECTRIC CURRENT; ELECTRICITY; ELECTRODIALYSIS; MEMBRANE STRUCTURE; WASTE COMPONENT REMOVAL;

ADSORPTION; CHARCOAL; CONSERVATION OF NATURAL RESOURCES; DIALYSIS; ELECTROCHEMICAL TECHNIQUES; HYDROGEN SULFIDE; MEMBRANES, ARTIFICIAL;

EID: 67749097496     PISSN: 03043894     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jhazmat.2009.04.115     Document Type: Article

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