Project (this project is generated using MiTS 220.127.116.11 and the method used is Peak Flow) = Project 1
You might encounter a situation where some of the drains are smaller than the previous drain dimension, which is not supposed to happen because of course the water flow is not supposed to suddenly disappear in the drain and causes the dimension to be smaller.
If you encounter this, you may need to change the discharge calculation method to Peak Flows Method. To change the methods, click on “Options > Project Parameters > Drainage > Design > Cumulative Peak Flow > Method
There are two options of calculating the discharge in MiTS, which are Catchment Flows and Peak Flows method. These two methods are important during the analysis in drainage as it will control the output, especially the dimension.
- Peak Flows Method
The calculation of the Peak Flow Method depends on the cumulative calculation of peak flow. It is crucial to determine the dimension of the drains, as the total effective catchment areas and the total peak flows are considered in the consecutive drain designs.
Below are the examples of calculation, which you may compare between these two methods.
Drain 15 and Drain 16 are taken as examples and the dimensions generated are the same. By using this method, there is no chance of getting a smaller drain in the consecutive connected drains, as the peak discharge of the previous drains are evaluated as well.
Refer to Drain 16 detailed calculation in the textual report. Notice that in the Peak Discharge, the previous peak discharge (Drain 15) is also calculated in order to determine the drain peak discharge.
The highlighted 14.744 is the peak discharge of the previous drain which is Drain 15. The discharge is summed up with the current drain (Drain 16). Therefore, the dimension of the drain is proposed based on this peak discharge.
2. Catchment Areas Method
Catchment Area method is calculated based on individual calculation of its own effective peak discharge, without considering the previous drains. The discharge is calculated by summing up the C*A contribution from all of the previous connecting drains first, and then only multiplying it with its own Intensity, and since this Intensity can differ from previous drain, this may result in a smaller peak discharge compared to previous drains, and hence smaller drain size.
Below are the examples of calculation by using the catchment areas method.
As an example above, Drain 16 is smaller than the previous drain which is Drain 15. Refer to the Textual Report for more detailed calculation.
As detailed calculations are shown, the drain 16 is smaller than the drain 15. Although they are connected, since the catchment area method has been used, therefore the calculation of the dimension is iterated based on individual discharge.
Below is an example of the peak discharge calculation of Drain 16. The peak discharge only considers the cumulative calculation of the effective catchment with the previous drain and peak discharge of the prior drain is disregarded.
Hence, you may find that some of the drain may be smaller than than the previous drains. And if you want to change it the way software calculates it, change the method as explained in the above section (Peak Flows Method)