private void UpdateWB()
{
WaterBalanceComponents.Clear();
for (int i = 0; i < 8; i++)
{
string name = _waterBody.Output.Items[i].Name;
if (_waterBody.Output.Items[i].Values.Count() > 0)
{
double d = _waterBody.Output.Items[i].GetSiValue(StorageTimeStart, StorageTimeEnd);
if (Math.Abs(d) > 0)
{
WaterBalanceComponents.Add(new KeyValuePair <string, double>(name, d));
}
}
}
StorageTime = (int)_waterBody.Output.GetStorageTime(StorageTimeStart, StorageTimeEnd).TotalDays / 365;
}
private void UpdateWB()
{
WaterBalanceComponents.Clear();
WaterBalanceComponents.Add(new KeyValuePair <string, double>("Outflow", _lake.Output.Outflow.GetSiValue(StorageTimeStart, StorageTimeEnd)));
WaterBalanceComponents.Add(new KeyValuePair <string, double>("Evaporation", -_lake.Output.Evaporation.GetSiValue(StorageTimeStart, StorageTimeEnd)));
double sources = _lake.Output.Sources.GetSiValue(StorageTimeStart, StorageTimeEnd);
double groundwater = ((GroundWaterBoundary)_lake.GroundwaterBoundaries.First()).Output.Items[0].GetSiValue(StorageTimeStart, StorageTimeEnd);
if (_lake.Output.Inflow.Items.Count > 0)
{
double inflow = _lake.Output.Inflow.GetSiValue(StorageTimeStart, StorageTimeEnd);
WaterBalanceComponents.Add(new KeyValuePair <string, double>("Inflow", inflow));
}
WaterBalanceComponents.Add(new KeyValuePair <string, double>("Precipitation", sources - groundwater));
WaterBalanceComponents.Add(new KeyValuePair <string, double>("Groundwater", groundwater));
StorageTime = (int)_lake.Output.GetStorageTime(StorageTimeStart, StorageTimeEnd).TotalDays / 365;
}