This thesis describes the design, assembly and optimisation of a flow injection-chemiluminescence
(FI-CL) procedure for the determination of hydrogen peroxide (H2O2) in
seawater. An overview of the biogeochemical importance of H2O2 in seawater is presented
in Chapter One. The use of both flow injection and chemiluminescence based methods are
also reviewed.
Chapter Two describes the type of analytical instrumentation used in both flow injection
and chemiluminescence methods. Each component is described and its suitability to the FI-CL
method discussed. Two detection systems; photomultiplier tube and photodiode, and
two flow cell designs; coiled glass and lamina, were compared for their suitability to the
method. A charge coupled device was used to obtain the CL spectra of the luminol CL
reaction and automation of the FI manifold is also described.
Chapters Three and Four describe the optimisation of the FI-CL method and its suitability
to the determination of H2O2 in natural waters (river, estuarine and sea). Matrix efifects are
investigated and a standard addition procedure described. The analytical figures of merit for
H2O2 determination include a limit of detection of 10 nM and a linear range of 10-500 nM.
The application of the fully optimised method to the in situ determination of H2O2 in the
western Mediterranean is described in Chapter Five. Hydrogen peroxide depth profiles are
presented from different geographical areas and diurnal variations in H2O2 concentration
discussed.
The final experimental chapter investigates the photochemical generation of H2O2 in both
synthetic and natural water matrices. Ambient light incubations at sea and artificial light
incubations in the laboratory were made.
Date of Award | 1995 |
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Original language | English |
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Awarding Institution | |
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THE DETERMINATION OF HYDROGEN PEROXIDE IN SEA WATER USING FLOW INJECTION WITH CHEMILUMINESCENCE DETECTION
Price, D. (Author). 1995
Student thesis: PhD