The identification of petroleum acids, also known as ‘naphthenic’ acids (NA), has been
an analytical challenge for over 140 years. However, most recent interest in NA has
arisen due to concerns over their presence and apparent associated toxic effect in oil
platform produced waters and oil sands process waters (OSPW), respectively.
Understanding the toxicity, transformations during biodegradation and remediation
treatments and predicting the fate of NA in the environment will be aided by the
identification of individual NA. However the elucidation of individual acid structures
by standard chromatographic techniques, such as GC-MS, has so far been limited by the
extreme complexity of the NA mixtures.
Recent analysis of NA as the methyl ester derivatives, by multidimensional gas
chromatography-mass spectrometry (GC×GC-MS), has resulted in the identification of
several tri- to pentacyclic, aromatic and sulphur-containing acids as well as tricyclic
diacids. Therefore the current investigation focused on the identification of the abundant
bicyclic acids in petroleum and OSPW acid extracts, utilising the unparalleled
chromatographic separation and mass spectrometric detection offered by GC×GC-MS.
Analysis of fractionated NA as methyl esters, resulted in the first identification of
several bicyclic acids in OSPW including several novel bridged bicyclic acids, several
fused bicyclic acids, as well as some terpenoid-derived drimane and labdane acids.
However, identifications were limited somewhat by a lack of reference mass spectra and
lack of availability of reference compounds for co-chromatography.
A complementary method, based on an historical approach, involving reduction of NA
esters to hydrocarbons, was modified and substantially improved. Analysis of the
hydrocarbons resulting from the reduced acids, by GC×GC-MS, and comparison of the
hydrocarbon mass spectra with the more abundant reference spectra available for
petroleum hydrocarbons, resulted in the identification of over 40 individual bicyclic
acids including fused, bridged and terpenoid-derived acids.
The study provides the most comprehensive analysis of one of the major classes of NA
(the bicyclic acids) to date. The methods developed were applied to the structural
elucidation of NA in commercial NA and OSPW NA and resulted in the identification
of numerous alicyclic, aromatic and sulphur-containing acids, supporting and extending
previous identifications.
There is clear potential for this method to be used for the identification of other
unknown acids and functionalised biomarkers in complex matrices. The new knowledge
of the acid structures in petroleum and OSPW NA can now be used to inform future
research into the environmental monitoring and toxicity of NA.
Date of Award | 2016 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Steven Rowland (Other Supervisor) |
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- petroleum acids
- naphthenic acids
- GCxGC-MS
- oil sands
- structural identification
- bicyclics
On the bicyclic acids of petroleum
Wilde, M. (Author). 2016
Student thesis: PhD