Kinetics and mechanisms of degradation of selected environmental pharmaceuticals by aqueous chlorination / Wan Nor Adira Wan Khalit
The occurrence of pharmaceuticals as pollutant in the environment has been widely reported across the world. It has been a growing concern due to it negative impacts of these pharmaceuticals on the ecosystem and living organism. During conventional water treatment processes, untreated pharmaceuti...
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Format: | Thesis |
Published: |
2016
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Online Access: | http://studentsrepo.um.edu.my/9263/1/Wan_Nor_Adira.pdf http://studentsrepo.um.edu.my/9263/6/WAN_NOR_ADIRA_DISSERTATION_2016.pdf http://studentsrepo.um.edu.my/9263/ |
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Institution: | Universiti Malaya |
Summary: | The occurrence of pharmaceuticals as pollutant in the environment has been
widely reported across the world. It has been a growing concern due to it negative
impacts of these pharmaceuticals on the ecosystem and living organism. During
conventional water treatment processes, untreated pharmaceuticals are often exposed to
chemical oxidation reaction during disinfection process. Among various disinfection
methods, chlorination is one of the most commonly used methods. The reactive species
in the chlorination process is hypochlorous acid (HOCl) which is known to react with
organic pollutants.
The main objectives of this study were to determine the second-order rate
constants (kapp) for the reaction between selected pharmaceuticals with free available
chlorine (FAC) and identification of the transformation by-products generated from the
chlorination of selected pharmaceuticals. According to the identified transformation byproducts,
the mechanism of the transformation pathway of selected pharmaceuticals in
chlorination was elaborated. The efficiency of chlorination in the removal of selected
pharmaceuticals in different matrices was also evaluated. The selected pharmaceuticals
for this study were acebutolol and sotalol (β-blockers), mefenamic acid (nonsteroidal
anti-inflammatory drugs), sulfacetamide and sulfanilamide (antibiotics). These
pharmaceuticals have been frequently detected in the aquatic environment.
In the kinetics study, kapp for the reaction between selected pharmaceuticals and
FAC were determined at 25 ± 0.1 °C. The result indicated that the degradation of
selected pharmaceuticals by free FAC was highly pH dependence at the selected pH
range. At pH 6 to 8, it was found that kapp of Abt, Stl, Mfe, Sfa and Sfn was ranged from
0.03 to 0.19 M-1s-1, 0.93 to 0.65 M-1s-1, 16.4 to 4.35 M-1s-1, 4.50 to 4.50 M-1s-1 and 2.20 to 0.97 M-1s-1, respectively. The elimination of the selected pharmaceuticals in different
water matrices (lake water, ground water and secondary effluent) showed that the
efficiency of chlorination in the pharmaceuticals removal was retarded by high TOC
and COD concentrations. Chlorination showed the highest efficiency in the removal of
selected pharmaceuticals containing in ground water which has the lowest TOC and
COD concentrations. However, in secondary effluent that containing higher
concentrations of COD and TOC, the percentage removal of selected pharmaceuticals
was relatively poor as compared with other water matrices.
Characterization of the transformation by-products formed during the
chlorination of selected pharmaceuticals was carried out using liquid chromatography
coupled to quadrupole time-of-flight high resolution mass-spectrometry. The
transformation by-products were determined after 24 h of FAC exposure. The result
indicated that chlorination of pharmaceuticals could produce various transformation byproducts.
Overall, 18 transformation by-products were identified for the selected
pharmaceuticals. These transformation by-products were mainly formed through the
hydroxylation, chlorination, oxidation and dealkylation reactions.
In conclusion, this research showed that pharmaceuticals could react with HOCl
during disinfection process. The reactivity of the selected pharmaceuticals towards the
reaction with HOCl is highly pH dependent at the common pH range of natural water.
Chlorination might remove some of the pharmaceuticals however its efficiency was
depending on the characteristic of water matrices. Chlorination of pharmaceuticals was
also found to form various transformation by-products. |
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