ARAN - Access to Research at NUI Galway

Time-Resolved Fluorescence Spectroscopy of Crude Petroleum Oils

ARAN - Access to Research at NUI Galway

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dc.contributor.advisor Ryder, Alan
dc.contributor.author Owens, Peter
dc.date.accessioned 2012-11-20T09:44:07Z
dc.date.available 2012-11-20T09:44:07Z
dc.date.issued 2009-03
dc.identifier.uri http://hdl.handle.net/10379/3065
dc.description.abstract Characterisation of crude oil properties in real-time by spectroscopic methods has been a major challenge to the oil industry. While current methods can show the presence of oil, a quantitative determination of oil physical and chemical properties has yet to be found. Also the mechanisms of oil photophysics are far from being fully understood. This thesis seeks to address these issues by two principle objectives. First, the determination of fluorescence lifetimes for crude oils by the Frequency Domain method and second, the analysis of the eff ects of dilution and temperature on the photophysical properties of crude oils. As a primary objective, a Frequency Domain (FD) method was developed to measure the fluorescence lifetimes of a series of crude oils. Analysis of the average lifetimes was made based on how many decay terms and the type of tting model used. Correlations were made between the bulk chemical data for the oils and average lifetimes from distribution and discrete models. The FD method was then applied to the analysis of Hydrocarbon Fluid Inclusions (HCFI) where individual inclusions could be isolated and the average lifetime determined for the included oils. Comparisons were made between the lifetimes for the bulk oils and HCFI. The second objective of the thesis was to examine the e ects of dilution and temperature on the photophysical behaviour of crude petroleum oils. Comparisons were made between lifetimes over the range of temperatures sampled and di fferences between dilute and neat average lifetime values gave estimations of quenching eff ects. Lifetimes were monitored over a range of temperatures and were found to follow a simple Arrhenius-like behaviour. A modi ed Stern-Volmer quenching model could be applied to the crude oil lifetime data showing the presence of both static and dynamic quenching and the calculated quenching rate constants have been found to vary linearly with oil type. Neat and dilute oils also followed a reverse Eyring behaviour allowing calculation of activation enthalpy and entropy values. Although the theory for the Arrhenius, Eyring and Stern-Volmer models is based on single fluorophore systems, they were found to apply for a complex system of multiple emitting and interacting fluorophores. In the context of these simple models, the average lifetime calculated for crude oils represented an summation of the excited state processes. en_US
dc.subject Crude oils en_US
dc.subject Fluorescence lifetime en_US
dc.subject Chemistry en_US
dc.title Time-Resolved Fluorescence Spectroscopy of Crude Petroleum Oils en_US
dc.type Thesis en_US
dc.contributor.funder SFI en_US
dc.local.note Characterisation of crude oil properties by spectroscopic methods is highly desirable to the oil industry, yet remains a challenge to obtain methods that are robust and quantitative. While current methods can show the presence of oil, quantitative determination of physical and chemical properties has yet to be found. In this thesis we provide observations of fluorescence lifetime taken at various conditions, in an effort to obtain a quantitative model for crude oil prediction. en_US
dc.local.final Yes en_US

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