CHAPTER 2 - BASIC CONCEPTS RELATED TO FLOWING WATER AND MEASUREMENT

11. Hydraulic Mean Depth and Hydraulic Radius

Figure 2-4 shows an irregular flow cross section with different methods for defining depth of flow. In terms of frictional head losses, the perimeter is important. Hydraulic radius, R_h, is defined as the area of the flow section divided by the wetted perimeter, P_w, which is shown on figure 2-4 and is written as:

Thus, wetted perimeter times the hydraulic radius is equal to the area of irregular section flow as shown on figures 2-4a and 2-4c.

For use in Froude number and energy relationships in open channel flow hydraulics, mean depth, h_m, is defined as the depth which, when multiplied by the top water surface width, T, is equal to the irregular section area, A, shown on figures 2-4a and 2-4b, of the flow section and is commonly used for critical flow relationships. The equation for hydraulic mean depth, h_m, is:

In rectangular channels, hydraulic radius, R_h, does not equal depth, but approaches depth as the channel becomes very wide. However, the hydraulic mean depth, h_m, is the same as the depth of the rectangular flow section.