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Abstract
In this work, a novel kinetic model is introduced to represent the batch adsorption for aqueous-solution/porous-solid systems. The model proposes that the rate of adsorption is controlled by three parameters: solute concentration, n-powered time, and what is called varying-resistance against adsorption. Applicability of the model was examined by investigating the performance of the model considering the batch adsorption of methylene blue from aqueous solution onto three different adsorbents: hybrid resin-gel (MFTAT), commercial exhausted black tea, and dried pea husk. The effect of initial concentration was studied to explore model behavior. According to results and determined data, the DB-model successfully estimated the adsorption capacities and the rate constants. In addition, the DB-model managed to recognize the relative contributions of diffusion in the adsorption processes.
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