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Home My WebLink AboutSW5190201_15-INCH Riprap Outlet at FES 16_7/16/2019User Input Data Calculated Value Reference Data Designed By: Tom Harrell Date: 6/12/2019 Checked By: TH Date: Company: DEI Project Name: Cambridge Southeast Project No.: Site Location (City/Town) Raleigh Culvert Id. FES 16 Total Drainage Area (acres) 1.98 .Step 1. Determine the tailwater depth from channel characteristics 'below the pipe outlet for the design capacity of the pipe_ If the tailwater depth is less than half the outlet pipe diameter, it is classified nunimum tailwater condition_ If it is greater than half the pipe diameter, It is classified maxlniuni condition_ Pipes that outlet onto Vvide flat areas -k ith no defined channel are assumed to have a *fir-n nun1 tailwater condition unless reliable flood stage elevations show- oche lse_ Outlet pipe diameter, Do (in.) 15 Tailwater depth (in.) 7.5 Minimum/Maximum tailwater? Max TW (Fig. 8.06b) Discharge (cfs) 10 Velocity (ft./s) M Step 2. Based on the tailwater conditions detr-miined in step 1, enter Figure 8_06a orFignre 8_D6b, and determine d5o riprap size and minituu m apron length (L). The d., size is the median stone size iu a well -graded riprap apron_ Step 3. Determine apron width at the pipe outlet, the apron shape, and the apron width at the outlet end from the same figure used in Step 2_ Minimum TW Figure 8.06a Riprap d50, (ft.) Minimum apron length, La (ft.) Apron width at pipe outlet (ft.) 3.75 Apron shape Apron width at outlet end (ft.) 9.25 Step 4. Deterirutke the inammu m stone diameter: dr.. = 1.5 x d5D Minimum TW Max Stone Diameter, dmax (ft.) 0.75 Step 5. Deterinitke the apron thickness: Apron thickness = 1.5 x dr,. Maximum TW Figure 8.06b 0.5 8 3.75 1.25 Maximum TW 0 Minimum TW Maximum TW Apron Thickness(ft.) 1.125 0 Step 6. Fit the riprap apron to the site by niak ng it level for the ininim1un length, La, from Figure 8_06a or Figure 8_0 b_ Extend the apron farther do xnstreani and aloniz channel banks until stability is assured_ Keep the apron as straight as possible and align it with the flow of the receiving stream_ Make any necessary alignment bends near the pipe outlet so that the entrance into the receii-mg stream is straight_ Solve locations may require lining of the entire channel cross section to asstue stability_ It may be necessary io increase the size of riprap Where protection of the channel side slopes is necessary p pendky 8.05)_ 'Where overfalls exist at pipe outlets or flows are a cessive, a phinge pool should be considered, see page 8_06_8_