Dataset for: Large‐eddy simulation model for the effect of gas bubble dissolution on the dynamics of hydrocarbon plume from deep‐water blowout

In this study, a Eulerian-Eulerian large-eddy simulation (LES) approach is used to model the gas bubble dissolution effect on the dynamics of the multiphase hydrocarbon plume in the stably stratified deep-water environment. The computational domain has a size of (700, 700, 700) m. Two different stratification conditions are considered. The first stratification condition has a linear temperature profile with a temperature gradient of 0.02 K/m and a density gradient of -4*10^{-6} kg/m^{-4}. The second stratification condition is based on the realistic oceanic stratification obtained from the Gulf of Mexico R/V Brooks McCall at Station B54 (2010-05-30, 28°43.945'N, 88°22.607'W). Resolution effects are explored with the linear stratification condition. The effects of initial droplet size and gas dissolution are explored with the realistic stratification condition. Data include instantaneous fields, vertical distribution, and time and annular averages of vertical velocity, oil concentration, and bubble mass at different model resolutions, initial bubble sizes, and bubble dissolution. This dataset supports the publication: Peng, C., Xiao, S., & Yang, D. (2020). Large‐eddy simulation model for the effect of gas bubble dissolution on the dynamics of hydrocarbon plume from deep‐water blowout. Journal of Geophysical Research: Oceans. doi:10.1029/2019jc016037