Title

Experimental Simulation of Crude Oil-Water Partitioning Behavior of BTEX Compounds during a Deep Submarine Oil Spill

Document Type

Article

Publication Date

6-2017

Keywords

Submarine oil spill, Partitioning, High pressure, Low temperature, Live oil, Experimental simulation, BTEX

Digital Object Identifier (DOI)

https://doi.org/10.1016/j.orggeochem.2017.03.006

Abstract

The conventional shake flask technique for determining oil-water partition ratios of benzene, toluene, ethylbenzene and xylene (BTEX) cannot accurately assess the extremes of high pressure and low water temperatures found in submarine oil spill conditions. An oil-water partitioning device has been constructed to experimentally simulate the partition behavior of BTEX compounds under submarine oil spill conditions, using simulated live oil (methane-charged), with saline waters over a range of pressure (2–15 MPa) and temperature (4–20 °C). Within the investigated ranges, the partition ratios of BTEX compounds increase proportionally with an increase in methane charging pressure (oil saturation pressure) and the degree of BTEX alkylation, and decrease with increase in temperature. The variation of the partition ratio values due to changes in system pressure and increasing oil methane concentration, is much more significant than those seen due to change in the temperature over the range studied. This data may be used in near-field and far-field distribution modeling of the environmental fate of highly toxic BTEX compounds, derived from submarine oil spills and their impact on the ecosystem. The parameters will also aid in the prediction of oil migration and dispersion away from the spill thus helping to improve response strategies.

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Citation / Publisher Attribution

Organic Geochemistry, v. 108, p. 1-8

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