Your search keyword '"OpenOil"' showing total 15 results

1. Hindcast of oil spill pollution in the East China Sea in January 2018.

Author

Nguyen, Thi-Hong-Hanh, Hou, Tien-Hung, Pham, Hai-An, and Tsai, Chia-Cheng

Abstract

In this study, an integrated model is developed for studying the Sanchi oil spill event, which occurred in the East China Sea in January 2018. The results of the Advanced Research Weather Research and Forecasting model (WRF-ARW) as well as the Princeton Ocean Model (POM) are used for meteorological forecasting and the hydrodynamic simulations, respectively. These data are adopted as inputs for the OpenOil, a sub-module of OpenDrift, for the oil spill model. Some reference experiments are examined for short-term hindcast. The satellite image is used to validate the numerical result. The oil slicks of the satellite image and the numerical result are of similar shapes. Quantitatively, the simulated oil slick and that from the satellite image are located closely and have similar dimensions of 56 km by 34 km and 54 km by 29 km, respectively. It is found that the accurate results can be obtained by the proposed integrated model with the high-frequency (hourly) and high-spatial-resolution data as inputs, and the wind drift factor has to be added. The long-term 1-month simulation showed that most of the oil particles would move to the northeast of the sinking location and be trapped by the Kuroshio current. [ABSTRACT FROM AUTHOR]

Published

2024

2. Oil Spill Sensitivity Analysis of the Coastal Waters of Taiwan Using an Integrated Modelling Approach.

Author

Nguyen, Thi-Hong-Hanh, Hou, Tien-Hung, Pham, Hai-An, and Tsai, Chia-Cheng

Subjects

TERRITORIAL waters, OIL spills, INTEGRATED coastal zone management, MARINE pollution, EMERGENCY management, WATER analysis, SENSITIVITY analysis

Abstract

Pollution caused by marine oil spills can lead to persistent ecological disasters and severe social and economic damages. Numerical simulations are useful and essential tools for accurate decision making during emergencies and planning response actions. In this study, we applied the Princeton Ocean Model (POM) to determine current data, including seawater velocity, salinity, and temperature, and we obtained the fate and trajectory of spilled oil using OpenOil. Several probable oil slicks around Taiwan were simulated over time (12 months) and space (four spill locations in the marine area of each coastal city or county) using the model. The percentage risk under the effect of an oil spill is estimated. The risk zone of the coastal waters of Taiwan was identified based on the frequency of simulated oil slicks hitting the coast and sensitive resources. This information not only helps authorities guide the preparation of effective plans to minimise the impacts of oil spill incidents but could also be used to improve regulations related to shipping and vessel navigation in regional seas. [ABSTRACT FROM AUTHOR]

Published

2024

3. Satellite imagery in evaluating oil spill modelling scenarios for the Syrian oil spill crisis, summer 2021

Author

Panagiota Keramea, Nikolaos Kokkos, George Zodiatis, Georgios Sylaios, Giovanni Coppini, Juan Peña, Pablo Benjumeda, Antonio Augusto Sepp Neves, Robin Lardner, Svitlana Liubartseva, Dmitry Soloviev, Matteo Scuro, Andreas Nikolaidis, and Fabio Viola

Subjects

oil spill modeling, remote-sensing SAR images, Baniya’s power plant, MEDSLIK, OpenDrift, OpenOil, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

The second-largest oil pollution incident in the Eastern Mediterranean Levantine basin, following the oil pollution crisis in Lebanon in 2006, is considered to be the oil leakage from the Syrian Baniyas power plant (summer 2021), during which 12,000 tons of oil were released. At the operational phase, the everyday predictions of oil drift were provided using the MEDSLIK and MEDSLIK-II models in the framework of an agreement between the Mediterranean Operational Network for Global Ocean Observing System (MONGOOS) and the Regional Marine Pollution Emergency Response Centre for the Mediterranean (REMPEC). In this work, we present a novel post-operational comprehensive model-based analysis, conducting a SAR validation in two model outputs: the MEDSLIK and the OpenDrift models. Each simulation is initiated with the operationally acquired EMSA-CSN and ESA SAR images. Moreover, the high-resolution met-ocean fields (CYCOFOS, SKIRON) are used to force the oil drift and transformation in both models. The spill was developed under the calm-wind conditions that prevailed during the incident. We found that the boundary sea currents developed on the periphery of the Lattakia eddies (anticyclonic and cyclonic) were responsible for the fast westward spreading of the oil spill offshore in the NE Levantine, the north-south pathway bifurcation, and re-landing of oil in the extended coastal area of Lattakia. Model outputs were validated against Synthetic-aperture radar (SAR) images with appropriate performance metrics, used for the first time, to assess the capacity of a reliable representation of oil spill drift. The intercomparison between the two oil spill models indicated that both models produce almost similar results, while their validation against the satellite SAR observations illustrates moderate accuracy.

Published

2023

4. Oil Spill Sensitivity Analysis of the Coastal Waters of Taiwan Using an Integrated Modelling Approach

Author

Thi-Hong-Hanh Nguyen, Tien-Hung Hou, Hai-An Pham, and Chia-Cheng Tsai

Subjects

oil spill modelling, risk zone, environment, POM, OpenOil, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Pollution caused by marine oil spills can lead to persistent ecological disasters and severe social and economic damages. Numerical simulations are useful and essential tools for accurate decision making during emergencies and planning response actions. In this study, we applied the Princeton Ocean Model (POM) to determine current data, including seawater velocity, salinity, and temperature, and we obtained the fate and trajectory of spilled oil using OpenOil. Several probable oil slicks around Taiwan were simulated over time (12 months) and space (four spill locations in the marine area of each coastal city or county) using the model. The percentage risk under the effect of an oil spill is estimated. The risk zone of the coastal waters of Taiwan was identified based on the frequency of simulated oil slicks hitting the coast and sensitive resources. This information not only helps authorities guide the preparation of effective plans to minimise the impacts of oil spill incidents but could also be used to improve regulations related to shipping and vessel navigation in regional seas.

Published

2024

5. NUMERICAL MODELING OF OIL SPILLS IN THE GULF OF MORROSQUILLO, COLOMBIAN CARIBBEAN

Author

Andrea Devis Morales, Efraín Rodríguez Rubio, and Daniel Rincón Martínez

Subjects

oi spill modelling, caribbean sea, fate of the oil spilled, oil weathering, openoil, Energy industries. Energy policy. Fuel trade, HD9502-9502.5, Chemical engineering, TP155-156

Abstract

This study encompasses the analysis of oil spills occurred in the Gulf of Morrosquillo during the loading procedures of oil tankers in the Coveñas maritime Terminal, by means of numerical simulation experiments of the trajectories and weathering processes of oil spilled, which occurred under specific wind, waves, and ocean currents conditions. A three-dimensional (3D) modelling system, OpenOil, which is part of the open-source OpenDrift trajectory framework was used to simulate two contingencies occurred in July and August 2014. During each event, different volumes of Vasconia crude oil spilled on the sea surface were simulated. The resulting slicks were subject to wind drift, Stokes drift from wave forcing, and ocean currents transporting the oil spilled towards the coast. Oil weathering effects (evaporation, emulsification, and biodegradation) are included in the analysis. To calculate weathering of the oil, OpenOil interfaces with the latest version of the open source ADIOS oil library. It should be noted that meteorological and ocean conditions contribute to the oil pathways that in both periods forced the oil slick towards the central coast of the Gulf. The wind speed is an important factor contributing to the rapid evaporation rates of the oil spilled in the warm waters of the Caribbean Sea; hence, allowing a gradual increase of the water fraction, which could lead to the formation of tar balls found in the affected coasts in the areas simulated by the model. The implementation of OpenOil to predict the oil fate and weathering processes in the Colombian basin prove to be a valuable tool that should be used in this maritime terminal to improve planning and preparedness in case of an oil spill. The simulations could be enhanced with higher resolution databases.

Published

2022

6. Operational Modeling of North Aegean Oil Spills Forced by Real-Time Met-Ocean Forecasts.

Author

Keramea, Panagiota, Kokkos, Nikolaos, Gikas, Georgios D., and Sylaios, Georgios

Subjects

OIL spills, MARINE pollution, MARINE sediments, MARINE ecosystem health, WEATHERING, PETROLEUM industry, KINETIC energy

Abstract

Over the latest decades, oil marine pollution has posed a vital threat for global ocean health, since spillages of any scale are related to environmental, social and financial impacts. The worldwide increase in oil and gas demand, and the parallel rise in oil and gas production, exploiting particularly coastal and offshore marine deposits, have significantly increased the risk of accidental oil release to the sea. In the present study, an operational oil spill model was applied to test the oil dispersive properties and to reveal the relative magnitude of weathering processes, after an accidental oil spill release along the main tanker transportation route in the North Aegean Sea. Numerical simulations were implemented using the OpenOil transport and fate numerical model, a subclass of the OpenDrift open-source trajectory framework. This model integrates algorithms with several physical processes, such as oil entrainment, vertical mixing, oil resurfacing and oil emulsification. The oil dispersion model was coupled to real-time met-ocean forecasts received from NOAA-GFS and CMEMS. Present simulation results have focused on the impact of turbulent kinetic energy, induced by the background flow field, on the horizontal spreading of particles, as well as on the evolution of oil mass balance and oil mass properties. [ABSTRACT FROM AUTHOR]

Published

2022

7. Operational Modeling of North Aegean Oil Spills Forced by Real-Time Met-Ocean Forecasts

Author

Panagiota Keramea, Nikolaos Kokkos, Georgios D. Gikas, and Georgios Sylaios

Subjects

OpenDrift, OpenOil, oil spill modeling, simulations, met-ocean forecasts, oil dispersion, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

Over the latest decades, oil marine pollution has posed a vital threat for global ocean health, since spillages of any scale are related to environmental, social and financial impacts. The worldwide increase in oil and gas demand, and the parallel rise in oil and gas production, exploiting particularly coastal and offshore marine deposits, have significantly increased the risk of accidental oil release to the sea. In the present study, an operational oil spill model was applied to test the oil dispersive properties and to reveal the relative magnitude of weathering processes, after an accidental oil spill release along the main tanker transportation route in the North Aegean Sea. Numerical simulations were implemented using the OpenOil transport and fate numerical model, a subclass of the OpenDrift open-source trajectory framework. This model integrates algorithms with several physical processes, such as oil entrainment, vertical mixing, oil resurfacing and oil emulsification. The oil dispersion model was coupled to real-time met-ocean forecasts received from NOAA-GFS and CMEMS. Present simulation results have focused on the impact of turbulent kinetic energy, induced by the background flow field, on the horizontal spreading of particles, as well as on the evolution of oil mass balance and oil mass properties.

Published

2022

8. A 30-Year Probability Map for Oil Spill Trajectories in the Barents Sea to Assess Potential Environmental and Socio-Economic Threats

Author

Victor Pavlov, Victor Cesar Martins de Aguiar, Lars Robert Hole, and Eva Pongrácz

Subjects

Arctic marine resources, oil drift, OpenDrift, OpenOil, oil spill simulations, Science

Abstract

Increasing exploration and exploitation activity in the Arctic Ocean has intensified maritime traffic in the Barents Sea. Due to the sparse population and insufficient oil spill response infrastructure on the extensive Barents Sea shoreline, it is necessary to address the possibility of offshore accidents and study hazards to the local environment and its resources. Simulations of surface oil spills were conducted in south-east of the Barents Sea to identify oil pollution trajectories. The objective of this research was to focus on one geographical location, which lies along popular maritime routes and also borders with sensitive ecological marine and terrestrial areas. As a sample of traditional heavy bunker oil, IFO-180LS (2014) was selected for the study of oil spills and used for the 30-year simulations. The second oil case was medium oil type: Volve (2006)—to give a broader picture for oil spill accident scenarios. Simulations for four annual seasons were run with the open source OpenDrift modelling tool using oceanographic and atmospheric data from the period of 1988–2018. The modelling produced a 30-year probability map, which was overlapped with environmental data of the area to discuss likely impacts to local marine ecosystems, applicable oil spill response tools and favourable shipping seasons. Based on available data regarding the environmental and socio-economic baselines of the studied region, we recommend to address potential threats to marine resources and local communities in more detail in a separate study.

Published

2021

9. Impacts of offshore oil spill accidents on island bird communities: A test run study around Orkney and Svalbard archipelagos.

Author

Pavlov, Victor, James, Neil A., Masden, Elizabeth A., de Aguiar, Victor Cesar Martins, Hole, Lars Robert, Liimatainen, Henrikki, and Pongrácz, Eva

Subjects

OIL spills, BIRD communities, ARCHIPELAGOES, MARITIME shipping, AUTUMN, HEAVY oil

Abstract

The sea area around the Orkney archipelago, Scotland is subjected to substantial maritime shipping activities. By contract, the Svalbard archipelago, Norway currently has a rather low marine traffic profile. Future projections, however, indicate that the Trans-Arctic route might change the whole transportation picture and Svalbard may be at the centre of maritime activities. Both archipelagos have sensitive environmental resources at sea and inland, including bird communities. There are, for instance, 13 Red Listed species present in Orkney and 2 in Svalbard. In this regard, it is important to address oil spill risks along existing and projected shipping routes. Hypothetical spills were simulated in twelve scenarios for both the Orkney and Svalbard archipelagos with the OpenDrift open-source software. The results indicate risks to seabird communities. For Orkney, the spills resulted in the most extensive contamination of the sea and land environments in autumn. For Svalbard, autumn spills on the contrary presented the lowest risk to seabirds. Based on the simulations, we recommend increased caution for shipping activities in the problematic seasons, improved local readiness for ship accidents and sufficient pre-incident planning. • Seabirds are vulnerable to oil spills in Orkney and Svalbard. • For Orkney, the risk is the highest in autumn; for Svalbard – in spring. • Among light, medium and heavy oils, the last two types pose the highest threat. • Improving oil spill preparedness in the studied areas can be a solution. • The study had exploratory character; therefore, further research is recommended. [ABSTRACT FROM AUTHOR]

Published

2023

10. MODELACIÓN NUMÉRICA DE DERRAMES DE HIDROCARBUROS EN EL GOLFO DE MORROSQUILLO, CARIBE COLOMBIANO

Author

Andrea Devis Morales, Efraín Rodríguez Rubio, and Daniel Rincón Martínez

Subjects

OpenOil, Destino, Oi spill modelling, oil weathering, fate of the oil spilled, Renewable Energy, Sustainability and the Environment, General Chemical Engineering, Geology, Mar Caribe, Caribbean Sea, Modelación de derrame de petróleo, General Energy, Geophysics, Fuel Technology, Mancha de crudo, Engineering (miscellaneous), Envejecimiento del crudo

Abstract

This study encompasses the analysis of oil spills occurred in the Gulf of Morrosquillo during the loading procedures of oil tankers in the Coveñas maritime Terminal, by means of numerical simulation experiments of the trajectories and weathering processes of oil spilled, which occurred under specific wind, waves, and ocean currents conditions. A three-dimensional (3D) modelling system, OpenOil, which is part of the open-source OpenDrift trajectory framework was used to simulate two contingencies occurred in July and August 2014. During each event, different volumes of Vasconia crude oil spilled on the sea surface were simulated. The resulting slicks were subject to wind drift, Stokes drift from wave forcing, and ocean currents transporting the oil spilled towards the coast. Oil weathering effects (evaporation, emulsification, and biodegradation) are included in the analysis. To calculate weathering of the oil, OpenOil interfaces with the latest version of the open source ADIOS oil library. It should be noted that meteorological and ocean conditions contribute to the oil pathways that in both periods forced the oil slick towards the central coast of the Gulf. The wind speed is an important factor contributing to the rapid evaporation rates of the oil spilled in the warm waters of the Caribbean Sea; hence, allowing a gradual increase of the water fraction, which could lead to the formation of tar balls found in the affected coasts in the areas simulated by the model. The implementation of OpenOil to predict the oil fate and weathering processes in the Colombian basin prove to be a valuable tool that should be used in this maritime terminal to improve planning and preparedness in case of an oil spill. The simulations could be enhanced with higher resolution databases. RESUMEN Este estudio comprende el análisis de los derrames de hidrocarburos ocurridos en el Golfo de Morrosquillo durante los procedimientos de carga de buques petroleros en el Terminal Marítimo de Coveñas, mediante la simulación numérica de las trayectorias y procesos de envejecimiento del crudo derramado, los cuales ocurrieron bajo condiciones específicas de viento, oleaje y corrientes oceánicas. Se utilizó un sistema de modelado tridimensional (3D), OpenOil, que forma parte del OpenDrift, de código abierto, para simular dos contingencias que ocurrieron en julio y agosto de 2014. Durante cada evento se simularon diferentes volúmenes de crudo Vasconia derramado en la superficie del mar. Las manchas resultantes están sujetas a la deriva del viento, la deriva de Stokes por la fuerza de las olas y las corrientes oceánicas que transportan el crudo derramado hacia la costa. Se incluye en el análisis los efectos del intemperismo o meteorización en la calidad del crudo (evaporación, emulsificación y biodegradación). Para calcular el envejecimiento del petróleo, OpenOil interactúa con la última versión de la biblioteca de hidrocarburos ADIOS de código abierto. Se encontró que las condiciones meteorológicas y oceánicas contribuyen con el comportamiento de la mancha de crudo, que durante estos dos períodos forzaron la trayectoria de la mancha hacia la costa central del Golfo. La velocidad del viento es un factor importante que contribuye a las rápidas tasas de evaporación del petróleo derramado en las cálidas aguas del mar Caribe, lo que permite un aumento gradual de la fracción de agua, que podría conducir a la formación de bolas de alquitrán que se encontraron en las costas afectadas en las áreas que fueron simuladas por el modelo. La implementación del OpenOil para predecir el destino del petróleo y los procesos de envejecimiento en la cuenca colombiana resulta ser una valiosa herramienta que debe utilizarse en esta terminal marítima para mejorar la planificación y preparación en caso de un derrame de petróleo en el Golfo de Morrosquillo. Las simulaciones obtenidas podrían mejorarse con el uso de bases de datos de más alta resolución.

Published

2022

11. A 30-Year Probability Map for Oil Spill Trajectories in the Barents Sea to Assess Potential Environmental and Socio-Economic Threats

Author

Victor Pavlov, Lars Robert Hole, Victor De Aguiar, and Eva Pongrácz

Subjects

OpenOil, oil spill simulations, OpenDrift, Science, Arctic marine resources, oil drift, Management, Monitoring, Policy and Law, Nature and Landscape Conservation

Abstract

Increasing exploration and exploitation activity in the Arctic Ocean has intensified maritime traffic in the Barents Sea. Due to the sparse population and insufficient oil spill response infrastructure on the extensive Barents Sea shoreline, it is necessary to address the possibility of offshore accidents and study hazards to the local environment and its resources. Simulations of surface oil spills were conducted in south-east of the Barents Sea to identify oil pollution trajectories. The objective of this research was to focus on one geographical location, which lies along popular maritime routes and also borders with sensitive ecological marine and terrestrial areas. As a sample of traditional heavy bunker oil, IFO-180LS (2014) was selected for the study of oil spills and used for the 30-year simulations. The second oil case was medium oil type: Volve (2006)—to give a broader picture for oil spill accident scenarios. Simulations for four annual seasons were run with the open source OpenDrift modelling tool using oceanographic and atmospheric data from the period of 1988–2018. The modelling produced a 30-year probability map, which was overlapped with environmental data of the area to discuss likely impacts to local marine ecosystems, applicable oil spill response tools and favourable shipping seasons. Based on available data regarding the environmental and socio-economic baselines of the studied region, we recommend to address potential threats to marine resources and local communities in more detail in a separate study.

Published

2022

12. The DeepWater Horizon Oil Slick: Simulations of River Front Effects and Oil Droplet Size Distribution

Author

Lars Robert Hole, Knut-Frode Dagestad, Johannes Röhrs, Cecilie Wettre, Vassiliki H. Kourafalou, Yannis Androulidakis, Heesook Kang, Matthieu Le Hénaff, and Oscar Garcia-Pineda

Subjects

HYCOM, OpenDrift, OpenOil, oil spill, modeling, simulations, satellite, observations, river fronts, DeepWater Horizon, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581

Abstract

The effect of river fronts on oil slick transport has been shown using high resolution forcing models and a fully fledged oil drift model, OpenOil. The model was used to simulate two periods of the 2010 DeepWater Horizon oil spill. Metocean forcing data were taken from the data-assimilative GoM-HYCOM 1/50° ocean model with realistic daily river input and global forecast products of wind and wave parameters from ECMWF. The simulations were initialized from satellite observations of the surface oil patch. The effect of using a newly developed parameterization for oil droplet size distribution was studied and compared to a traditional algorithm. Although the algorithms provide different distributions for a single wave breaking event, it was found that the net difference after long simulations is negligible, indicating that the outcome is robust regarding the choice of parameterization. The effect of removing the river outflow was investigated to showcase effects of river induced fronts on oil spreading. A consistent effect on the amount and location of stranded oil and a considerable impact on the location of the surface oil patch were found. During a period with large river outflow (20−27 May 2010), the total amount of stranded oil is reduced by about 50% in the simulation with no river input. The results compare well with satellite observations of the surface oil patch after simulating the surface oil patch drift for 7−8 days.

Published

2019

13. A 30-year probability map for oil spill trajectories in the Barents Sea to assess potential environmental and socio-economic threats

Author

Pavlov, V. (Victor), de Aguiar, V. C. (Victor Cesar Martins), Hole, L. R. (Lars Robert), and Pongrácz, E. (Eva)

Subjects

OpenOil, oil spill simulations, OpenDrift, Arctic marine resources, oil drift

Abstract

Increasing exploration and exploitation activity in the Arctic Ocean has intensified maritime traffic in the Barents Sea. Due to the sparse population and insufficient oil spill response infrastructure on the extensive Barents Sea shoreline, it is necessary to address the possibility of offshore accidents and study hazards to the local environment and its resources. Simulations of surface oil spills were conducted in south-east of the Barents Sea to identify oil pollution trajectories. The objective of this research was to focus on one geographical location, which lies along popular maritime routes and also borders with sensitive ecological marine and terrestrial areas. As a sample of traditional heavy bunker oil, IFO-180LS (2014) was selected for the study of oil spills and used for the 30-year simulations. The second oil case was medium oil type: Volve (2006)—to give a broader picture for oil spill accident scenarios. Simulations for four annual seasons were run with the open source OpenDrift modelling tool using oceanographic and atmospheric data from the period of 1988–2018. The modelling produced a 30-year probability map, which was overlapped with environmental data of the area to discuss likely impacts to local marine ecosystems, applicable oil spill response tools and favourable shipping seasons. Based on available data regarding the environmental and socio-economic baselines of the studied region, we recommend to address potential threats to marine resources and local communities in more detail in a separate study.

Published

2022

14. A 30-Year Probability Map for Oil Spill Trajectories in the Barents Sea to Assess Potential Environmental and Socio-Economic Threats.

Author

Pavlov, Victor, Aguiar, Victor Cesar Martins de, Hole, Lars Robert, and Pongrácz, Eva

Subjects

OIL spills, HEAVY oil, MARINE resources, OIL transfer operations, ECOSYSTEMS, PROBABILITY theory, MARINE ecology

Abstract

Increasing exploration and exploitation activity in the Arctic Ocean has intensified maritime traffic in the Barents Sea. Due to the sparse population and insufficient oil spill response infrastructure on the extensive Barents Sea shoreline, it is necessary to address the possibility of offshore accidents and study hazards to the local environment and its resources. Simulations of surface oil spills were conducted in south-east of the Barents Sea to identify oil pollution trajectories. The objective of this research was to focus on one geographical location, which lies along popular maritime routes and also borders with sensitive ecological marine and terrestrial areas. As a sample of traditional heavy bunker oil, IFO-180LS (2014) was selected for the study of oil spills and used for the 30-year simulations. The second oil case was medium oil type: Volve (2006)—to give a broader picture for oil spill accident scenarios. Simulations for four annual seasons were run with the open source OpenDrift modelling tool using oceanographic and atmospheric data from the period of 1988–2018. The modelling produced a 30-year probability map, which was overlapped with environmental data of the area to discuss likely impacts to local marine ecosystems, applicable oil spill response tools and favourable shipping seasons. Based on available data regarding the environmental and socio-economic baselines of the studied region, we recommend to address potential threats to marine resources and local communities in more detail in a separate study. [ABSTRACT FROM AUTHOR]

Published

2022

15. The DeepWater Horizon Oil Slick: Simulations of River Front Effects and Oil Droplet Size Distribution.

Author

Hole, Lars Robert, Dagestad, Knut-Frode, Röhrs, Johannes, Wettre, Cecilie, Kourafalou, Vassiliki H., Androulidakis, Yannis, Kang, Heesook, Le Hénaff, Matthieu, and Garcia-Pineda, Oscar

Subjects

WATERFRONTS, PETROLEUM, OIL spills, WIND forecasting

Abstract

The effect of river fronts on oil slick transport has been shown using high resolution forcing models and a fully fledged oil drift model, OpenOil. The model was used to simulate two periods of the 2010 DeepWater Horizon oil spill. Metocean forcing data were taken from the data-assimilative GoM-HYCOM 1/50° ocean model with realistic daily river input and global forecast products of wind and wave parameters from ECMWF. The simulations were initialized from satellite observations of the surface oil patch. The effect of using a newly developed parameterization for oil droplet size distribution was studied and compared to a traditional algorithm. Although the algorithms provide different distributions for a single wave breaking event, it was found that the net difference after long simulations is negligible, indicating that the outcome is robust regarding the choice of parameterization. The effect of removing the river outflow was investigated to showcase effects of river induced fronts on oil spreading. A consistent effect on the amount and location of stranded oil and a considerable impact on the location of the surface oil patch were found. During a period with large river outflow (20–27 May 2010), the total amount of stranded oil is reduced by about 50% in the simulation with no river input. The results compare well with satellite observations of the surface oil patch after simulating the surface oil patch drift for 7–8 days. [ABSTRACT FROM AUTHOR]

Published

2019