Abstract
Although desorption of adsorbed pharmaceuticals from granular activated carbon (GAC) may inadvertently lead to their partial discharge with adverse effects on aquatic environments, there have only been a few reports of this phenomenon. This study has investigated desorption of antibiotics vancomycin and rifampicin from activated carbon in aqueous media regarding contact time and pH regime. Various characterizations of the three types of GAC were investigated. Then, antibiotics were loaded on them via adsorption. Subsequently desorption and re-adsorption of antibiotics were quantified for a range of contact times and ambient pH values. Within the first hour of a reversed concentration gradient at neutral pH, desorption released 2% to 54% of previously adsorbed antibiotics to water, which were subsequently re-adsorbed within 24 hours to four weeks with less than 1% antibiotics remaining in the liquid phase. Lower desorption was positively associated with higher GAC mesopore content and larger specific surface area. Effects of the ambient pH regime varied between studied adsorbents. The results are evidence that mesopore content and pore size in relation to the kinetic diameter of adsorbate molecules are important determinants of the extent of antibiotic desorption from GAC and the rates of subsequent re-adsorption. Physisorption was the dominant mechanism involved in both processes. Observed proportions and rates of antibiotic desorption suggest that selection of GAC properties should also consider their effects on unintended desorption and the re-adsorption during treatment processes in order to minimize potential pollution discharge or promotion of antibiotic resistance during treatment processes.
Original language | English |
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Article number | 64 |
Pages (from-to) | 1-27 |
Number of pages | 27 |
Journal | Environmental Processes |
Volume | 11 |
Issue number | 4 |
Early online date | 23 Nov 2024 |
DOIs | |
Publication status | Published (in print/issue) - 23 Nov 2024 |
Bibliographical note
The authors are grateful to Ulster University Doctoral College and the Department for the Economy (DfE) for funding this research through a Vice Chancellor’s Research Scholarship for Hamed Rasouli Sadabad. The authors appreciate Dr. Christopher Kelly at University of Glasgow for his kind cooperation in running FTIR scans and gas sorption measurements of activated carbon samples.Publisher Copyright:
© The Author(s) 2024.
Publisher Copyright:
© The Author(s) 2024.
Data Access Statement
No datasets were generated or analysed during the current study.Keywords
- Desorption
- Vancomycin
- Rifampicin
- Activated carbon
- Antibiotic Resistance
- Water Treatment
- Antimicrobial Resistance
- Water treatment
- Antibiotic resistance