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- Title
Study of a light hydrocarbon fraction spill migration that occurred in an area of the Mexican southeast using computational fluid dynamics.
- Authors
Arellano-González, Miguel Ángel; López-Ordaz, Pedro; Palmerín-Carreño, Dulce María; Gracida-Rodríguez, Jorge; Arce-Vázquez, María Belem; Mondragón-Cisneros, Analiz; Melgarejo-Torres, Rodrigo
- Abstract
The present work aimed to study, predict and understand benzene migration that occurred during an industrial spill using numerical simulation by computational fluid dynamics. Advection, diffusion and adsorption were the main mechanisms considered that governed the spill incident. The incident occurred due to a fracture under a fuel oil storage tank. The tank was located on a hill 18 m high, and the initial value of benzene concentration (soil saturation) was 60 ppm. When the spill was discovered, samples in the affected zone were taken using an experimental design. Many samples showed a greater concentration of benzene than allowed by Mexican Official Standards (MOSs) (15 ppm). The concentrations found 100 m away from the spill were around 60 to 15 ppm. Due to the spill being under the tank, it was difficult to discover. The numerical simulation provided an estimate that the spill started around 2 years ago. The type of soil in the afflicted zone is rocky, and, consequently, it is difficult to estimate how long it will take to reach the concentration allowed by the MOSs, but the numerical simulation predicts that this concentration will be reached in 14 years. Experimental values of the spill contaminant concentration were statistically similar to the CFD estimated data (p < 0.05).
- Subjects
COMPUTATIONAL fluid dynamics; OIL storage tanks; ADVECTION-diffusion equations; FUEL storage; HYDROCARBONS; SOIL classification
- Publication
Environmental Science & Pollution Research, 2023, Vol 30, Issue 23, p64265
- ISSN
0944-1344
- Publication type
Article
- DOI
10.1007/s11356-023-26381-y