Citation:

Conmy, R., B. Robinson, T. King, M. Boufadel, S. Ryan, C. McIntyre, M. Abercrombie, AND K. Lee. Oil plume simulations: Tracking oil droplet size distribution and fluorescence within high-pressure release jets. In Proceedings, International Oil Spill Conference Proceedings, Long Beach,CA, May 15 - 19, 2017. Allen Press, Inc., Lawrence, KS, 1230-1250, (2017). https://doi.org/10.7901/2169-3358-2017.1.1230

Impact/Purpose:

The objective of this work was to evaluate the effects of water temperature and dispersant-to-oil ratio on DE of three oils at high reservoir temperatures, and to present the results at the International Oil Spill Conference.

Description:

Optical measurements have been used during oil spill response for more than three decades to determine oil presence in slicks and plumes. Oil surveillance approaches range from simple (human eyeball) to the sophisticated (sensors on AUVs, aircraft, satellites). In situ fluorometers and particle size analyzers were deployed during the Deepwater Horizon (DWH) Gulf of Mexico oil spill to track shallow and deep subsea plumes. Uncertainties regarding instrument specifications and capabilities during DWH necessitated performance testing of sensors exposed to simulated, dispersed oil plumes. Seventy-two wave tank experiments were conducted at the Bedford Institute of Oceanography. Simulated were oil releases with varying parameters such as oil release rate, oil temperature (reservoir temp ~ 80^oC), water temperature (<8 ^oC and >15 ^oC), oil type, dispersant type (Corexit 9500 and Finasol OSR52) and dispersant to oil ratio (DOR). Plumes of Alaskan North Slope Crude (ANS), South Louisiana Crude (SLC) and IFO-120 oils were tracked using in situ fluorescence, droplet size distribution (DSD), total petroleum hydrocarbons (TPH), and benzene-toluene-ethylbenzene-xylene (BTEX). For the lighter SLC, bimodal droplet size with mean diameter <70 µm was achieved for 1:20 and 1:100 DOR, regardless of water temperature. Similarly, the median ANS crude exhibited mean droplet diameter <70 µm, but was bimodal only for the 1:20 treatment. Bimodal distribution was not achieved with the heavy IFO, but droplet < 70 µm were observed for 1:20 warm waters, indicating poor dispersibility of the high viscosity oil even for jet releases. Results offer valuable information on the behavior and dispersibility of oils over a range of viscosity, DOR and environmental conditions. Findings have implications for fate and transport models, where DSD, chemistry and fluorescence are all impacted by release variables. This research was supported by the Bureau of Safety and Environmental Enforcement.

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