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Main Authors: Reich, Shoshana, Buskey, Edward, Dawson, Clint, Valseth, Eirik
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.24610
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author Reich, Shoshana
Buskey, Edward
Dawson, Clint
Valseth, Eirik
author_facet Reich, Shoshana
Buskey, Edward
Dawson, Clint
Valseth, Eirik
contents We present an investigation comparing the potential impacts of offshore and onshore crude oil loading sites on surface trajectories of spilled oil particles in the regions near the Port of Corpus Christi, Texas. Oil transport is established in a two step procedure. First, the circulation and flow characteristics of seawater throughout the coastal ocean are established for various flow conditions, including current and proposed channel depth, seasonality changes, and extreme weather events. Then, spilled oil is modeled as distinct particles released at either the proposed onshore or offshore loading locations. The particle trajectories are tracked and used to assess the spread into diverse coastal ecosystems with extensive plant, sea, and land life. The models indicate that the extent of spread of these simulated oil spills to ecologically significant regions is greater when initiated at the onshore loading site than at the offshore site.
format Preprint
id arxiv_https___arxiv_org_abs_2505_24610
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Potential Effects of Loading Terminal Locations on Surface Trajectories of Oil Spill Transport
Reich, Shoshana
Buskey, Edward
Dawson, Clint
Valseth, Eirik
Computational Physics
We present an investigation comparing the potential impacts of offshore and onshore crude oil loading sites on surface trajectories of spilled oil particles in the regions near the Port of Corpus Christi, Texas. Oil transport is established in a two step procedure. First, the circulation and flow characteristics of seawater throughout the coastal ocean are established for various flow conditions, including current and proposed channel depth, seasonality changes, and extreme weather events. Then, spilled oil is modeled as distinct particles released at either the proposed onshore or offshore loading locations. The particle trajectories are tracked and used to assess the spread into diverse coastal ecosystems with extensive plant, sea, and land life. The models indicate that the extent of spread of these simulated oil spills to ecologically significant regions is greater when initiated at the onshore loading site than at the offshore site.
title Potential Effects of Loading Terminal Locations on Surface Trajectories of Oil Spill Transport
topic Computational Physics
url https://arxiv.org/abs/2505.24610