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Line 39: Where: '''Q<sub>p</sub>''' = Flow in Conduit <br> '''Q<sub>im</sub>''' = Total flow into manhole <br> '''Q<sub>om</sub>''' = Total flow out of manhole <br> '''y<sub>i</sub>''' = Height of inlet conduit <br> '''y<sub>o</sub>''' = Height of outlet conduit <br> '''h<sub>i</sub>''' = Inlet conduit invert <br> '''h<sub>o</sub>''' = Outlet Conduit invert <br> '''θ''' = Angle in degrees of inlet conduit relative to outlet conduit(θ = 0° "when the culverts are in line," θ=90° when the outlet culvert is at right angles) <br> '''Q<sub>p</sub>''' = Flow in conduit outlet <br> '''W<sub>m</sub>''' = Flow width in manhole (1d_mh width attribute) <br> '''y<sub>m</sub>''' = Depth of water in manhole <br> '''A<sub>m</sub>''' = Flow are in manhole <br> '''A'<sub>m</sub>''' = Effective flow are in manhole <br> '''A<sub>p</sub>''' = Flow area of conduit <br> '''K<sub>m</sub>''' = Manhole Loss Parameter (1d_mh Km attribute) <br> '''K<sub>b</sub>''' = Bend Loss Coefficient (1d_nwk Form_loss attribute) <br> '''K<sub>f</sub>''' = Fixed Loss (1d_mh K_Fixed attribute) <br> '''K<sub>Bendmax</sub>''' = Upper limit to sum of K<sub>θ</sub> and K<sub>drop</sub> (1d_mh K_Bend_Max attribute) <br> <br> Below are three worked examples of the application of the Engelund method applied to a simple model for the following scenarios:

1D Manholes: Difference between revisions