The Fate of Crude Oil during Photooxidation under Natural Sunlight

Qing Wang1,2, Meredith Evans2, Hernando Pactao Bacosa3, Xinping Hu4 and Zhanfei Liu2, (1)East China Normal University, Department of Geography, Shanghai, China, (2)The University of Texas at Austin, Marine Science Institute, Port Aransas, TX, United States, (3)Texas A&M University Galveston campus, Marine Biology, Port Aransas, TX, United States, (4)Texas A&M University - Corpus Christi, Physical and Environmental Sciences, Corpus Christi, TX, United States
Abstract:
Photooxidation plays an important role in removing spilled crude oil, particularly the aromatic fraction, in surface seawater. Even though much research has been done regarding the changes of different oil fractions by photooxidation, including saturate, aromatic, resin and asphaltene (SARA), we know little about how specific aromatic compounds change in the SARA fractions during photooxidation. In this study, we amended 13C-labled phenanthrene in slightly weathered Louisiana light sweet crude, and followed the fates of 13C values of the SARA fractions during a 44-d incubation experiment under the natural sunlight in south Texas. Our results showed that the aromatic fraction of the crude decreased from 25.4% at time zero to 13.5% at the 44th d, while the resin increased from 12.2% to 16.5% and asphaltene from 2.4% to 13.3%, respectively. This result indicates the aromatic was transformed mostly into asphaltene by photooxidation, and most of the changes took place within the first 10 d. In contrast, no significant difference was observed in the SARA fractions in the dark controls. Analyses of 13C values and phenanthrene concentrations in the SARA fractions are currently on going and will be presented. Results from this experiment provide insights into changes of specific aromatic compounds within oil fractions by photochemical oxidation during oil weathering in the ocean.