Toxic Substances Hydrology Program
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Environmental impacts of petroleum production: The fate of petroleum and other organics associated with produced water from the Osage-Skiatook Petroleum Environmental Research sites, Osage County, OKFrances D. Hostettler Presented at the 9th International Petroleum Environmental
Conference Full Text of the Paper (pdf file 1.65 MB) Abstract We are involved in a multidisciplinary investigation to study the transport, fate, and natural attenuation of inorganic salts, trace metals, radionuclides and organic compounds present in produced water, and their impacts on soil, surface and ground water and the local ecosystem at the Osage-Skiatook Petroleum Environmental Research (OSPER) A and B sites, located in Osage County, OK. About one hectare of land at each of the OSPER A and B sites is affected by salt scarring, soil salinization and brine and petroleum contamination. The main environmental concern results because the sites are adjacent to Skiatook Lake, a 4250-hectare reservoir that provides drinking water to the local communities and is a major recreational fishery. Petroleum wells and tank batteries at the A site have been inactive for some time and the bulk of the hydrocarbon (now degraded and weathered oil) and produced water releases occurred more than 60 years ago. One pit at this site however, contains relatively fresh asphaltic oil and high salinity brine. The B site includes an active production tank battery and adjacent brine and oil pit, an inactive tank battery and an injection well with a small brine pit. For this study oil, gas and/or brine samples were obtained from several oil wells at the B site and areas adjoining the A and B sites, from the two active brine pits at the B site, from the asphaltic pit and adjacent weathered oil pit at the A site and from several of the 40 boreholes (1-71 m deep), recently drilled and completed. Water samples for dissolved organics were obtained from selected boreholes with high salinity water and measurable hydrocarbon gases in the unsaturated zone. Soil and rock core samples were obtained from these selected boreholes to determine the amount and composition of oil sorbed onto the sediments. Finally samples of sediments and/or water from these selected boreholes and from the brine and oil pits were obtained for bacterial characterization. Chemical analysis and bacterial determinations on the collected
samples are continuing. Results completed to date show the crude oil source
(samples from B and adjacent production wells) is a typical paraffinic-naphthenic
light (API gravity of ~35) oil, containing n-alkanes as the dominant components.
The four samples examined are identical in their maturity and chemical
characteristics. Even though petroleum production is from shallow sandstones
(300-600 m depth), these fresh oils show no sign of biodegradation, indicating
that bacteria are unable to survive in the associated high salinity (~150,000
mg/L total dissolved solids) brine. Bacterial action, volatilization and
water washing are likely responsible for the transformation of source
oil to the surficial asphaltic and weathered oil observed at the A site.
The leakage of oil with brine from the main active pit at the B site is
indicated by the detection of a thin, but discrete oil phase in at least
one borehole, the presence of hydrocarbon gases in several boreholes and
the smell of oil in many sediment cores from the impacted area located
down gradient from this pit. The measured concentrations of DOC, acetate
and other organic acid anions, BTEX, phenols and other organics in the
source brine are relatively low, but their values in water samples from
the impacted areas are not yet available
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