Abstract
In the present investigation, brown clay (BC) was modified with didodecyldimethylammonium bromide (DDAB) to produce a sorbent (DDAB-BC), which was characterized and applied for sorption of methylene blue (MB) from aqueous media. BC was functionalized using DDAB by cation exchange of the DDAB moiety with positive ions existing inside the interlayer spaces of the BC. X-ray diffraction (XRD) studies confirmed that the d-spacing of DDAB-BC became wider (3.39 Å) than that of BC (3.33 Å). Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy (SEM) were exploited to explore the functional groups and morphological structure of sorbents, respectively. The Brunauer–Emmett–Teller (BET) surface area, pore volume, and pore diameter of DDAB-BC were determined as 124.6841 m2/g, 0.316780 cm3/g, and 8.75102 nm, respectively. Batch sorption investigations were carried out to determine the optimum experimental conditions, using the one-factor one-time procedure. The sorption of MB on DDAB-BC strongly obeyed the Langmuir isotherm and agreed well with pseudo-second-order kinetics. Sorption of MB onto DDAB-BC showed maximum efficiency (∼98%) and maximum sorption capacity (∼164 mg/g) at optimal values of pertinent factors: dye concentration (100 mg/L), pH (7), and temperature (55 °C). Sorption isothermal studies predicted that removal of MB on DDAB-BC follows multilayer sorption at higher MB dye concentrations and monolayer sorption at lower MB dye concentrations.
Highlights
Industrial revolution and expansion of occupational activities for the needs of bulk population have increased the environmental pollution
The sorptive removal of methylene blue (MB) is calculated, and results are illustrated in samples; brown clay (BC) is selected for modification in rest of the study
The results obtained have revealed that DDAB-BC has sufficient potential due to acquired properties to be employed as a sorbent for the removal of organic pollutants from water environments
Summary
Industrial revolution and expansion of occupational activities for the needs of bulk population have increased the environmental pollution. Dyes are classified as anionic and cationic ones, on the basis of chemical functionality, and are toxic to a great extent and harmful to mankind and the environment As they are having a toxic effect on the biotic component of the atmosphere, the investigators have tried their best to get rid of these pollutants. All available options have been employed to develop technologies for the abatement of water pollution caused by dyestuff These technologies work via physicochemical,[4] biological,[5] ozonation,[6] membrane filtration,[7] advanced oxidation,[8] or integrated treatment processes,[4] but all of them have complete or partial limitations. We have studied the sorption kinetic, equilibrium, and thermodynamics to understand equilibrium properties and the mechanism of the sorption process
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