Removal of Bisphenola A applying sonophotocatalysis / Sharmini Sunasee
Bisphenol A (BPA), a chemical compound that exhibits endocrine disrupting action can be found in aquatic systems. Its complete elimination has been demanded due to its high toxic effects. Initially, the BPA removal by sonophotocatalysis coupled with titanium dioxide (TiO2, P25) was conducted with...
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| Format: | Thesis |
| Published: |
2018
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| Online Access: | http://studentsrepo.um.edu.my/9248/1/Sharmin_sunasee.jpg http://studentsrepo.um.edu.my/9248/11/sharmini.pdf http://studentsrepo.um.edu.my/9248/ |
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| Summary: | Bisphenol A (BPA), a chemical compound that exhibits endocrine disrupting
action can be found in aquatic systems. Its complete elimination has been demanded due
to its high toxic effects. Initially, the BPA removal by sonophotocatalysis coupled with
titanium dioxide (TiO2, P25) was conducted with various batch tests using energy-based
advanced oxidation combining ultrasound (US) and ultraviolet (UV). The kinetics of
BPA removal were systematically evaluated with not only various operational
parameters such as US frequency and power, mechanical stirring speed, and
temperature, but also comparison between sole and coupled system under the optimum
condition of US (35 kHz, 50W, 300 rpm stirring speed and 20oC). The combination of
US/UV/P25 was the highest BPA removal rate. The removal of BPA was investigated
to identify BPA by-products and intermediates by use of a high-performance liquid
chromatography mass
spectrometry (HPLC-MS) and five main intermediates were
formed during the sonophotocatalytic degradation. They were monohydroxylated
bisphenol A, 4-isopropenylphenol, monohydroxylated 4-isopropenylphenol,
dihydroxylated bisphenol A, and 4-hydroxyacetophenone. This study was further
investigated to operate energy-saving sonophotocatalysis process and find out the
effectiveness of sonophotocatalytic with the presence of nano-structured graphitic
carbon nitride (GCN) as environment-friendly sonophotocatalyst. The material was
prepared through a facile pyrolysis by using urea as a precursor and it displayed good
visible-light-driven photocatalytic performance. There is no any significant effect on pH
4-8 of BPA solution. Therefore, the entire test was carried out at pH 7. The
sonophotocatalytic performance was the highest BPA removal rate compared to other
Advance Oxidation Process (AOP) application. There were five intermediates,
monohydroxylated BPA, dihydroxylated BPA, 4-hydroxyacetophenone, 4- isopropenylphenol and 4-hydroxybenzaldehyde identified in the presence of GCN under
sonophotocatalysis process. Reusability test of GCN was carried out for five times and
resulting a good capability of reuse up to third cycle. The advantages of using GCN as
sonophotoctalyst were energy save and environment-friendly material because a very
good visible light driven and synthesised by non-toxic starting material and the
capability of reuse. |
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