@article{scholars18602, note = {cited By 12}, volume = {21}, doi = {10.1016/j.gsd.2023.100925}, year = {2023}, title = {Response surface methodology and artificial neural network for prediction and validation of bisphenol a adsorption onto zeolite imidazole framework}, journal = {Groundwater for Sustainable Development}, author = {Mahmad, A. and Zango, Z. U. and Noh, T. U. and Usman, F. and Aldaghri, O. A. and Ibnaouf, K. H. and Shaharun, M. S.}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85147450285&doi=10.1016\%2fj.gsd.2023.100925&partnerID=40&md5=273bbe7e1cd165c221c82fbde9bee701}, keywords = {Adsorption; Neural networks; Phenols; Reusability; Surface properties; Topography, Aqueous media; Bis-phenol a; Bisphenol A; Bisphenols-A; Effective removals; Imidazol; Pore volume; Porous zeolites; Response-surface methodology; Zeolite imidazole framework, Zeolites, adsorption; artificial neural network; enthalpy; entropy; pollutant removal; prediction; response surface methodology; thermodynamics; zeolite}, abstract = {Zeolite imidazole frameworks (ZIFs) have demonstrated good capacity in the adsorption of molecules. This work reported the highly porous ZIF{\^a}??8 with a specific Bruner{\^a}??Emmett{\^a}??Teller (BET) area and pore volume of 1299 m2/g and 0.60 m3/g, respectively, for the effective removal of bisphenol A (BPA) from the aqueous medium. The experiments were designed using response surface methodology (RSM), according to Box{\^a}??Behnken design (BBD), comprising four factors; BPA concentrations, ZIF{\^a}??8 dosages, pH, and contact time. The model fitting was justified by the analysis of variance with the statistical model F and p{\^a}??values of 6.360 and 0.0007, respectively, thus, achieving the highest removal efficiency of 99.93. The artificial neural network (ANN) was employed for the experimental validation, and the optimum topography was obtained at node 10. Thermodynamically, the process was described as exothermic and spontaneous, with overall changes of enthalpy ({\^I}?H{\^A}o) and entropy ({\^I}?S{\^A}o) of 9.557 kJ/mol and 0.0142 J/mol/K, respectively. The ZIF{\^a}??8 has demonstrated good reusability for several adsorption cycles. Thus, ZIF{\^a}??8 could be adopted as potential material for BPA removal from the environmental waters. {\^A}{\copyright} 2023 Elsevier B.V.} }