Graduation Semester and Year

2016

Language

English

Document Type

Thesis

Degree Name

Master of Science in Civil Engineering

Department

Civil Engineering

First Advisor

Hyeok Choi

Abstract

The presence of pharmaceutical residues in water resources has alarmed water and health authorities. Among many treatment technologies for pharmaceuticals, ultraviolet (UV)-based oxidation has gained significant attention because it is capable of decomposing a variety of recalcitrant and toxic chemicals. As an alternative UV source to problematic conventional mercury lamps, light-emitting diode (LED) has shown many advantages for water treatment applications, so-called UV-LED. The overall goal of this study is to evaluate the high potential of the UV-LED technology to treat water contaminated with pharmaceuticals including sulfamethoxazole, ibuprofen, and triclosan. In particular, important operational parameters were investigated, including UV wavelength, irradiation intensity, reaction pH, and TiO2 loading. The effect of the operational parameters on the decomposition of the pharmaceuticals was discussed, and optimized operation conditions were proposed. Photolytic decomposition of the pharmaceuticals was also compared with their photocatalytic decomposition. Photolytic decomposition of the pharmaceuticals was solely determined by relation between their UV absorption characteristics and the UV emission spectra of LEDs. Both photolytic decomposition and photocatalytic decomposition were greatly affected by reaction pH. The presence of TiO2 in cases that significant photolysis was present, rather inhibited the overall decomposition process. However, in all cases, photocatalysis showed better mineralization than photolysis.

Keywords

Advanced oxidation processes, Pharmaceuticals, Photolysis, TiO2 photocatalysis, UV light-emitting diode

Disciplines

Civil and Environmental Engineering | Civil Engineering | Engineering

Comments

Degree granted by The University of Texas at Arlington

26390-2.zip (778 kB)

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