Investigation of adsorption kinetics and isothermal thermodynamics for optimizing methylene blue adsorption onto a modified clay with cellulose using the response surface approach
Abderrazak Hamidi, Djamal Atia, Abdelkrim Rebiai, Abdallah Reghioua, Ammar Zobeidi, Mohammed Messaoudi, Bachir Ben Seghir, Paweł Pohl, Jesús Simal‐Gándara
Abstract
Abstract In this study, the clay was interwoven with cellulose to change its structure. The product clay/cellulose was used to assess the efficacy of the methylene blue (MB) dye removal from aqueous solutions (CC25). The response surface methodology and Box-Behnken design were used to optimize the influence of crucial parameters (cellulose load, adsorbent dosage, solution pH, temperature, and contact duration) (RSM-BBD). The greatest removal effectiveness was 98.76% for a cellulose loading of 25.0% and the following working conditions, i.e., adsorbent dosage of 0.06 g/L, pH 7, temperature of 45 °C, and contact length of 20 min. At the time, the maximum adsorption capacity was 254.8 mg/g. The pseudo-second-order adsorption model, according to the adsorption kinetics research, was used to describe the process. The MB adsorption process was endothermic and spontaneous, according to computed thermodynamic functions. The developed composite material, according to our results, has a very high capacity for the color absorption and removal.