• Title of article

    Study of the Adsorption Performance of a Cationic Dye onto a Moroccan Clay

  • Author/Authors

    Abbou ، Brahim Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , Lebkiri ، Imane Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , Ouaddari ، Hanae Laboratory of Materials, Membranes and Environment - Faculty of Sciences and Technologies of Mohammedia - Hassan II University , kadiri ، lamya Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , ouass ، abdelkarim Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , Elamri ، Abdlhay Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , Bensalah ، Jaouad Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , Habsaoui ، Amar Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , Lebkiri ، Ahmed Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University , Rifi ، El Housseine Laboratory of Advanced Materials and Process Engineering - Faculty of Sciences - Ibn Tofail University

  • From page
    563
  • To page
    574
  • Abstract
    The purpose of this study is to examine the adsorption process of a cationic dye, in this case Methylene Blue (MB), on Moroccan natural clay collected from Marrakech region. The influence of physicochemical parameters (contact time, pH, mass of the adsorbent, initial Methylene Blue concentration and temperature) on MB adsorption performance on clay was studied. Experimental results showed a remarkable and rapid elimination within the first twenty minutes of contact of the two phases. The adsorption kinetics of Methylene Blue was evaluated applying pseudo first and second order kinetic models. The kinetic study demonstrates that adsorption obeys the pseudo second order model. The adsorption process was determined by applying the Langmuir and Freundlich isotherms. The maximum adsorption capacity of the raw clay is about 32 mg g^-1. The temperature effect on dye adsorption was also examined and thermodynamic parameters were calculated.
  • Keywords
    Cationic dye , Methylene Blue , kinetic , Isotherm , Thermodynamic
  • Journal title
    Journal of Chemical Health Risks
  • Journal title
    Journal of Chemical Health Risks
  • Record number

    2733942