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tutorial_-_time_events_-_monthly_max [2020/10/12 20:14] erik [Tutorial - Time events - Monthly maximum] |
tutorial_-_time_events_-_monthly_max [2020/10/12 20:16] erik |
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{{ : | {{ : | ||
- | You can download the model {{ : | + | You can download the solution |
- | + | [[tutorial | |
- | ==== Base model ==== | + | [[tutorial - time events - monthly max with memory|Next]] |
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- | All examples are based on the following base model, which calculates a dummy value we can use for our event experiments. You can download the model from {{ : | + | |
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- | 1. Edit [[simulation settings]]. Set | + | |
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- | * **Time unit**: Days | + | |
- | * **Time mode**: Time | + | |
- | * **Start time**: 0.0 | + | |
- | * **End time**: 100.0 | + | |
- | * **Start date**:2000-01-01 | + | |
- | + | ||
- | * **Output options**: Produce additional output | + | |
- | * **Time points**: from start to end with a 1.0 increment | + | |
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- | 2. Create a material named //Poison// with the unit //mg//. | + | |
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- | 3. Create two compartments //Sky// and //Soil//. Set the initial condition for //Sky// to be **500** (mg) of **Poison**. | + | |
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- | 4. Add a transfer from //Sky// to //Soil// and set its equation to //" | + | |
- | + | ||
- | 5. Add a transfer from //Soil// to //Sky// and set its equation to //" | + | |
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- | 6. When run, the model will output a Sky and Soil concentration like this: | + | |
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- | {{ : | + | |
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- | Continue with [[tutorial - time events - monthly max|Next]] | + | |
===== See also ===== | ===== See also ===== |