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ecoop-eurodess:marine_security_in_the_northwest_shelf_seas [2009-05-05 11:28:20] goranb |
ecoop-eurodess:marine_security_in_the_northwest_shelf_seas [2022-05-31 09:29:32] (current) |
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- | S9.2.1 - Marine security in the Northwest Shelf seas | + | ====== |
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+ | ===== Outline ===== | ||
The marine security for the Northwest Shelf seas is based on the oil drift model, i.e., the OD3D model, that is operational at the Norwegian Meteorological institute (met.no). Within ECOOP the focus is to enhance the forecast reliability by | The marine security for the Northwest Shelf seas is based on the oil drift model, i.e., the OD3D model, that is operational at the Norwegian Meteorological institute (met.no). Within ECOOP the focus is to enhance the forecast reliability by | ||
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We also pursue the development of new ways to include wave drift and wave-oil interaction in the oil drift service. This is work in progress. | We also pursue the development of new ways to include wave drift and wave-oil interaction in the oil drift service. This is work in progress. | ||
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+ | ===== Example of drift forecast using different model ===== | ||
To provide an example of the oil drift service, and the enhancement of the service made possible through ECOOP, we consider an oil spill outside the Norwegian coast. | To provide an example of the oil drift service, and the enhancement of the service made possible through ECOOP, we consider an oil spill outside the Norwegian coast. | ||
- | In Figure 1 we display the oil drift using currents from four different ocean models | + | In Figure 1 we display the oil drift using currents from four different ocean models |
- | * met.no Nordic 4, which is the standard model used at met.no | + | |
* met.no Skagerrak 1.5km, which is a high resolution model for the Skagerrak area (i.e., the southernmost part of Norway) | * met.no Skagerrak 1.5km, which is a high resolution model for the Skagerrak area (i.e., the southernmost part of Norway) | ||
* Mercator 1/ | * Mercator 1/ | ||
* Mercator 1/4'th degree global model. | * Mercator 1/4'th degree global model. | ||
- | The model results are from january | + | The model results are from January |
- | {{: | + | |
- | Figure 1: The drift using four different ocean models to force the met.no oil drfit forecast system | + | {{: |
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+ | //Figure 1: The drift using four different ocean models to force the met.no oil drift forecast system// | ||
As stated above, the drift is very similar for all different ocean models. the reason is that the Norwegian Coastal Current is very stable for this area and is well captured by the model. At some distance out from the coast the forcing is not as stable and here the different model system start to diverge. In Figure 2 we show the current fields from the met.no ocean models, while the ocean currents from Mercator are displayed in Figure 3. It is interesting to see that the met.no models are similar and that the Mercator models are similar, but that there are large differences between the model systems. | As stated above, the drift is very similar for all different ocean models. the reason is that the Norwegian Coastal Current is very stable for this area and is well captured by the model. At some distance out from the coast the forcing is not as stable and here the different model system start to diverge. In Figure 2 we show the current fields from the met.no ocean models, while the ocean currents from Mercator are displayed in Figure 3. It is interesting to see that the met.no models are similar and that the Mercator models are similar, but that there are large differences between the model systems. | ||
- | {{: | ||
- | Figure 2: The currents at the sea surface for the two met.no models used in this intercomparison study. Red arrows is for the Nordic 4 km simulation, and blue arrow is for the Skagerrak 1.5 km model. | ||
- | {{: | + | {{: |
- | Figure 3: The currents at the sea surface for the two Mercator models used in this intercomparison study. Blue arrows is for the North Atlantic 1/15th degree model while green arrow is from the global 1/4th degree model. | + | |
+ | //Figure 2: The currents at the sea surface for the two met.no models used in this inter comparison study. Red arrows is for the Nordic 4 km simulation, and blue arrow is for the Skagerrak 1.5 km model.// | ||
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+ | {{: | ||
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+ | //Figure 3: The currents at the sea surface for the two Mercator models used in this intercomparison study. Blue arrows is for the North Atlantic 1/15th degree model while green arrow is from the global 1/4th degree model.// | ||