The aim of this work is to develop new heterogeneous catalysts for the mineralization of Ibuprofen, a pharmaceutical compound commonly found in wastewaters, using a Fenton like process. Copper and Iron catalysts supported over zirconia, eventually doped with strontium were developed. Structural and morphological properties of the materials were investigated by conventional techniques and Fenton-like reactions were carried out in a batch system. Copper/iron-doped zirconia samples exhibited a promising activity in terms of Ibuprofen degradation and mineralization. The best catalyst, copper supported over zirconia, achieved an almost complete degradation of ibuprofen (98 %) with 50 % of mineralization. Optimization of the reaction variables (oxidant dose, pH, catalyst loading and temperature) led to increase process efficiency. Moreover, these catalysts do not produce toxic metabolites which is important when considering the degradation of water pollutants. The present study highlights the potential of copper/iron supported catalysts for the removal of organic compounds in wastewaters via heterogeneous Fenton-like process.
Enhanced ibuprofen removal by heterogeneous-Fenton process over Cu/ZrO2 and Fe/ZrO2 catalysts
Hussain S.Writing – Original Draft Preparation
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2020
Abstract
The aim of this work is to develop new heterogeneous catalysts for the mineralization of Ibuprofen, a pharmaceutical compound commonly found in wastewaters, using a Fenton like process. Copper and Iron catalysts supported over zirconia, eventually doped with strontium were developed. Structural and morphological properties of the materials were investigated by conventional techniques and Fenton-like reactions were carried out in a batch system. Copper/iron-doped zirconia samples exhibited a promising activity in terms of Ibuprofen degradation and mineralization. The best catalyst, copper supported over zirconia, achieved an almost complete degradation of ibuprofen (98 %) with 50 % of mineralization. Optimization of the reaction variables (oxidant dose, pH, catalyst loading and temperature) led to increase process efficiency. Moreover, these catalysts do not produce toxic metabolites which is important when considering the degradation of water pollutants. The present study highlights the potential of copper/iron supported catalysts for the removal of organic compounds in wastewaters via heterogeneous Fenton-like process.Pubblicazioni consigliate
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