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tutorial_7-creating_a_transport_the_old_fashioned_way [2019/11/18 13:34] 127.0.0.1 external edit |
tutorial_7-creating_a_transport_the_old_fashioned_way [2023/03/29 11:29] (current) dmytroh |
====== Tutorial 7-Creating a transport the old fashioned way ====== | ====== Tutorial 7 - Creating a transport the old fashioned way ====== |
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===== 2/5 ===== | ===== 2/5 ===== |
**Creating the model structure** | **Creating the model structure** |
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- Create a new project by clicking the {{:New24.png|New}} button on the [[Toolbar|Toolbar]] or by selecting **File | New** from the [[Menu_bar|Menu bar]]. | - Create a new project by clicking the {{:New24.png|New}} button on the [[Menu_bar#Toolbar|toolbar]] or by selecting **File | New** from the [[Menu_bar|Menu bar]]. |
- Create a [[Source_Sink|Source/Sink]] block. Name it “Source”. | - Create a [[Source_Sink|Source/Sink]] block. Name it “Source”. |
- Create three [[Compartment|Compartment]] blocks. Name them //“Layer_1”//, //“Layer_2”// and //“Layer_3”//. | - Create three [[Compartment|Compartment]] blocks. Name them //“Layer_1”//, //“Layer_2”// and //“Layer_3”//. |
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{{:Tutorial_7_model.png|Screenshot}} | {{tutorial_7_1.png}} |
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<HTML><ol></HTML> | <HTML><ol></HTML> |
<HTML><li></HTML><HTML><p></HTML>Edit the //Input// [[Transfer|Transfer]] block. Enter the value “1.0” in the [[expression|expression]] field.<HTML></p></HTML><HTML></li></HTML> | <HTML><li></HTML><HTML><p></HTML>Edit the //Input// [[Transfer|Transfer]] block. Enter the value “1.0” in the equation field.<HTML></p></HTML><HTML></li></HTML> |
<HTML><li></HTML><HTML><p></HTML>Edit the //Advection_1_2// [[Transfer|Transfer]] block. Enter the [[expression|expression]] “v/(R * dx)” where:<HTML></p></HTML> | <HTML><li></HTML><HTML><p></HTML>Edit the //Advection_1_2// [[Transfer|Transfer]] block. Enter the [[expression|expression]] “v/(R * dx)” where:<HTML></p></HTML> |
<HTML><p></HTML>\\ | <HTML><p></HTML>\\ |
<HTML><li></HTML><HTML><p></HTML>Enter the same equation “v/(R * dx)” for the [[Transfer|Transfer]] blocks //Advection_2_3// and //Advection_3_Out//.<HTML></p></HTML><HTML></li></HTML> | <HTML><li></HTML><HTML><p></HTML>Enter the same equation “v/(R * dx)” for the [[Transfer|Transfer]] blocks //Advection_2_3// and //Advection_3_Out//.<HTML></p></HTML><HTML></li></HTML> |
<HTML><li></HTML><HTML><p></HTML>Edit the [[Expression|Expression]] block //Flux_Out//. Enter the equation “Layer_3 * Advection_3_Out”.<HTML></p></HTML><HTML></li></HTML> | <HTML><li></HTML><HTML><p></HTML>Edit the [[Expression|Expression]] block //Flux_Out//. Enter the equation “Layer_3 * Advection_3_Out”.<HTML></p></HTML><HTML></li></HTML> |
<HTML><li></HTML><HTML><p></HTML>Edit the [[simulation_settings|simulation settings]] by clicking the {{:SimulationSettings24.png}} button. Set the end time to 10 years.<HTML></p></HTML><HTML></li></HTML> | <HTML><li></HTML><HTML><p></HTML>Edit the [[simulation_settings|simulation settings]] by clicking the {{:SimulationSettings24.png}} button. Set the end time to 10 years.{{tutorial_7_2.png}} <HTML></p></HTML><HTML></li></HTML> |
<HTML><li></HTML><HTML><p></HTML>[[Running_simulations|Run a simulation]] and make a plot of the simulation output //Flux_Out//.<HTML></p></HTML> | <HTML><li></HTML><HTML><p></HTML>[[Running_simulations|Run a simulation]] and make a plot of the simulation output //Flux_Out//.<HTML></p></HTML> |
<HTML><p></HTML>\\ | <HTML><p></HTML>\\ |
<HTML></p></HTML> | <HTML></p></HTML> |
<HTML><p></HTML>{{:Tutorial_7_chart1.png|Screenshot}}<HTML></p></HTML> | <HTML><p></HTML>{{tutorial_7_3.png}}<HTML></p></HTML> |
<HTML><p></HTML>\\ | <HTML><p></HTML>\\ |
<HTML></p></HTML><HTML></li></HTML> | <HTML></p></HTML><HTML></li></HTML> |
**Solution to this part** | **Solution to this part** |
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* [[Solution_transport_1.eco|Solution_transport_1]] | * {{solution_transport_1.eco}} |
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**Next** | **Next** |
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* [[Tutorials|Back to Tutorials]] | * [[Tutorials|Back to Tutorials]] |
* Home | * [[start|Home]] |
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