BP / Ralph M. Parsons Laboratory / Ryerson / Coastal / Socolofsky S. A. / /
Country
United States / / /
Event
Man-Made Disaster / /
Facility
Texas A&M University / Georgia Institute of Technology / Massachusetts Institute of Technology / Stable Hydrate Region Prop / Station B54 / /
IndustryTerm
large oil droplets / methane gas hydrate formation / large gas bubbles / gas bubbles / spilled oil / oil and gas / oil droplets / gas bubble effective diameter / gas dissolution / modest gas stripping / /
NaturalFeature
Gulf of Mexico / Gulf of Mexico Research Initiative / /
Organization
School of Civil and Environmental Engineering / National Science Foundation / Texas A&M University / Department of Oceanography / Massachusetts Institute of Technology / Georgia Institute of Technology / Atlanta / /
Person
Fully Dissolved / Thorsten Stoesser / Scott A. Socolofsky / Christopher R. Sherwood / R. Sherwood Model / E. Eric Adams / Brooks McCall / /
Position
Ranz-Marshall / Well Head / representative / Further Information Author / Model Data Compared / /
ProgrammingLanguage
LaTeX / /
ProvinceOrState
Texas / Georgia / Massachusetts / /
RadioStation
Cro am 0 / /
Region
Gulf of Mexico / /
TVStation
CBET / /
Technology
Environmental Engineering / detrainment Integral Plume Model algorithm / heat transfer / Simulation / animation / /
Near-field dynamics of the Deepwater Horizon accidental blowout: Chemical partitioning, intrusion dynamics, and dispersant effectiveness Scott A. Socolofsky, E. Eric Adams, Steven F. DiMarco, Thorsten Stoesser, and Chris