| Title | Industrial sludge conversion into biochar and reuse in the context of circular economy: Impact of pre-modification processes on pharmaceuticals removal from aqueous solutions |
|---|---|
| ID_Doc | 5579 |
| Authors | Jellali, S; Khiari, B; Al-Harrasi, M; Charabi, Y; Al-Sabahi, J; Al-Abri, M; Usman, M; Al-Raeesi, A; Jeguirim, M |
| Title | Industrial sludge conversion into biochar and reuse in the context of circular economy: Impact of pre-modification processes on pharmaceuticals removal from aqueous solutions |
| Year | 2023 |
| Published | |
| Abstract | The present research deals with the global challenge of managing industrial sludge with respect to sustainability and circular economy principles. It focuses on raw industrial sludge (IS-R) conversion into valuable biochars that can serve as efficient adsorbents for pharmaceuticals in industrial wastewater. Three biochars were produced through sludge pyrolysis at 750 degrees C either without modification (IS-R-B), or after pre-treatment with 1 M solution of ZnCl2 (IS-ZnCl2-B) or FeCl3 (IS-FeCl3-B). Compared to the pristine biochar, the modified sludge-derived biochars (SDBs) showed improved structural, textural, and surface chemical properties. As a result, ISZnCl2-B and IS-FeCl3-B had AMX adsorption capacities of 31.9 and 32.1 mg g-1 which were 41.2% and 42.0% higher than the non-modified biochar, respectively. Moreover, both modified SDBs effectively removed AMX under various experimental conditions, including the presence of competitive ions and over a wide pH range. The AMX removal was found to be spontaneous, endothermic, and primarily controlled by chemical reactions on a monolayer system. These findings suggest that biochars generated from pyrolysis of salt-modified industrial sludge can be used as effective materials for removing pharmaceuticals from water. Therefore, this study supports the concepts of circular economy and sustainable development by offering engineering solutions. |
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