Optimization Of The Temperature For The Extraction of Pharmaceuticals From Waste Water By a Hollow FiberSilicone Membrane

Abstract

The influence of temperature 011 the extraction and selectivity of naproxen, ibuprofen, and triclosan by a thin-walled hollow fiber silicone rubber membrane was investigated. Determination of the diffusion coefficients and flux values at 25, 40, and 60 degrees Celsius was undertaken. The diffusion coefficient and flux were found to illcrease with temperature. It W(tS also observed that at higher temperatures, mass transfer was influenced by the amount extracted in the acceptor phase. However, diffusion from the bulk donor phase through the hollow jiber silicone rubber membrane was shown to control the transport of analytes at lower temperatures. When applied to wastewater, the hollow jiber silicone rubber showed remarkable selectivity toward the analytes, However, at high temperatures, the amount of matrix components extracted also increased slightly. The amount extracted nearly doubled when extraction was performed at 40 degrees Celsius compared to 25 degrees Celsius, indicating that temperature increased the efficiency of the hollow fiber silicone rubber membrane. The application of the technique to municipal wastewater showed remarkable selectivity and reproducibility, The concentrations of these compounds were from 18.4 (1.37 percent} micrograms per liter fOJ' triclosan to 1.1 (0.16 percent) micrograms per liter for naproxen ill the influent and 2.7 (0.29 percent} micrograms pel' liter for triclosan to 0.4 (0,01 percent) micrograms pel' liter for naproxen in the effluent