Journal of Pharmaceutical Analysis (Apr 2014)
A solid-phase extraction approach for the identification of pharmaceuticalâsludge adsorption mechanisms
Abstract
It is important to understand the adsorption mechanism of chemicals and active pharmaceutical ingredients (API) on sewage sludge since wastewater treatment plants are the last barrier before the release of these compounds to the environment. Adsorption models were developed considering mostly hydrophobic APIâsludge interaction. They have poor predictive ability, especially with ionisable compounds. This work proposes a solid-phase extraction (SPE) approach to estimate rapidly the APIâsludge interaction. Sludge-filled SPE cartridges could not be percolated with API spiked mobile phases so different powders were tested as SPE sludge supports. Polytetrafluoroethylene (PTFE) was selected and tested at different PTFE/sludge ratios under eight different adsorption conditions with three API ionisable compounds. The PTFE/sludge mixtures with 50% or less sludge could be used in SPE mode for API sorption studies with methanol/water liquid phases. The results gave insights into APIâsludge interactions. It was found that ÏâÏ, hydrogen-bonding and chargeâcharge interactions were as important as hydrophobicity in the adsorption mechanism of charged APIs on sludge. Keywords: Pharmaceuticals, Sewage sludge, Adsorption coefficient, Binding, Solid-phase extraction, Polytetrafluoroethylene
