| ... | @@ -39,7 +39,7 @@ The exchange rates between the neighboring compartments are estimated by fitting |
... | @@ -39,7 +39,7 @@ The exchange rates between the neighboring compartments are estimated by fitting |
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For the 0D model only 1 parameter (exchange rate between the North Sea and the Oosterschelde) had to be fitted. In the figure below, the fitted model is compared with the artificial data. The fitted model is used to calculate the average residence time ($`RT`$, d) and turnover time ($`TT`$, d) of the water within the compartment.
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For the 0D model only 1 parameter (exchange rate between the North Sea and the Oosterschelde) had to be fitted. In the figure below, the fitted model is compared with the artificial data. The fitted model is used to calculate the average residence time ($`RT`$, d) and turnover time ($`TT`$, d) of the water within the compartment.
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_Results of the DEMO tracer model (blue line), together with the artificial data from the 3D the GetM/GotM model (orange dots)._
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_Results of the DEMO tracer model (blue line), together with the artificial data from the 3D the GetM/GotM model (orange dots)._
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| ... | @@ -56,7 +56,8 @@ For the model with 4 compartments, four exchange parameters had to be estimated: |
... | @@ -56,7 +56,8 @@ For the model with 4 compartments, four exchange parameters had to be estimated: |
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- Exchange rate between compartment Central and East (m<sup>3</sup> d<sup>-1</sup>);
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- Exchange rate between compartment Central and East (m<sup>3</sup> d<sup>-1</sup>);
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- Exchange rate between compartment Central and North (m<sup>3</sup> d<sup>-1</sup>)
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- Exchange rate between compartment Central and North (m<sup>3</sup> d<sup>-1</sup>)
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 _Results of the DEMO tracer model (blue lines), together with the artificial data from the 3D the GetM/GotM model (orange dots) for the compartments West, Central, East and North._
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_Results of the DEMO tracer model (blue lines), together with the artificial data from the 3D the GetM/GotM model (orange dots) for the compartments West, Central, East and North._
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The fitted exchange rates between the neighboring compartments are implemented in the function “Transp_4C()”.
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The fitted exchange rates between the neighboring compartments are implemented in the function “Transp_4C()”.
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| ... | @@ -66,9 +67,9 @@ The fitted exchange rates between the neighboring compartments are implemented i |
... | @@ -66,9 +67,9 @@ The fitted exchange rates between the neighboring compartments are implemented i |
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For the model with 28 compartments, a total of 42 exchange rates had to be estimated.
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For the model with 28 compartments, a total of 42 exchange rates had to be estimated.
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 _Results of the DEMO tracer model (blue lines), together with the artificial data from the 3D the GetM/GotM model (orange dots) for the compartments 1-15._
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 _Results of the DEMO tracer model (blue lines), together with the artificial data from the 3D the GetM/GotM model (orange dots) for the compartments 1-15._
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 _Results of the DEMO tracer model (blue lines), together with the artificial data from the 3D the GetM/GotM model (orange dots) for the compartments 16-28._
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 _Results of the DEMO tracer model (blue lines), together with the artificial data from the 3D the GetM/GotM model (orange dots) for the compartments 16-28._
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The fitted exchange rates between the neighboring compartments are implemented in the function “Transp_28C()”.
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The fitted exchange rates between the neighboring compartments are implemented in the function “Transp_28C()”.
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