Dyes are extensively water-soluble and toxic chemicals. The disposing of wastewater rich with such chemicals has severely impacted surface water quality (rivers and lakes). In the current study, an anionic dye, methyl orange, were extracted from wastewater fluids using bulk liquid membranes supplemented with an anionic carrier (Aliquat 336 (QCI)). Parameters including solvent type (carbon tetrachloride and chloroform), membrane stirring speed (100-250 rpm), mixing speed of both phases (50-100 rpm), The feed pH (2-12) and implemented temperature (35-60 °C) were thoroughly analyzed to determine the effect of such variables on extraction effectiveness. Furthermore, the effect of methyl orange (10-50 ppm) in the feed stage and NaOH (0.15-0.5 M) in the stripping stage concentrations were examined. It was found that high extraction efficiency (optimum operating conditions) for methyl orange of approximately 93% was reached through the membrane of a bulk liquid at 40 ppm initial concentration of feed; stirring speed of feed and stripping phases 75 rpm; stirring speed of membrane phase 200 rpm; 0.25 M NaOH concentration; carrier concentration 1wt%; feed pH of methyl orange 6.7, and 35˚C. Methyl orange kinetics were examined under the kinetic model of two irreversible first-order reactions under the best possible scenarios. The values of activation energy of J.mol−1 were 669.4 and 1930.5 for the extraction and stripping procedures. These values demonstrate that diffusion and not a chemical reaction dominates the transport process.
