From 2f1feb9b0cb170b4a7892e49494edbe3668be16f Mon Sep 17 00:00:00 2001 From: Paul Garlick Date: Tue, 1 Oct 2019 16:58:18 +0100 Subject: add TODO item to use weighted mean coefficient values. --- makeBoundary.py | 5 ++++- 1 file changed, 4 insertions(+), 1 deletion(-) (limited to 'makeBoundary.py') diff --git a/makeBoundary.py b/makeBoundary.py index 21b1113..a85062d 100755 --- a/makeBoundary.py +++ b/makeBoundary.py @@ -29,7 +29,7 @@ definition_dict = read_definition('boundaryDefinition.txt') slope = abs(definition_dict["slope"]) # slope at top boundary target_flow = definition_dict["target_flow"] # imposed discharge location = definition_dict["location"] # boundary location -print(target_flow) +print(location) with open('../topography/top_boundary.xyz', "r") as topo: xin, yin, zin = np.loadtxt(topo, delimiter=' ', unpack=True) @@ -61,6 +61,9 @@ numH = 50 # number of height intervals n_co_chan = 0.035 # Manning's coefficient for inland water n_co_west = 0.040 # Manning's coefficient for general surface n_co_east = 0.040 # Manning's coefficient for general surface +# TODO: use weighted mean 'n' value. See http://help.floodmodeller.com/isis/ISIS/River_Section.htm (Eq. 4) +# Note: weighted mean calculation requires roughness map. + def conveyance(numH, n_co, xregion, zregion, zmin, zmax): p_i = [] # wetted perimeter A_i = [] # area -- cgit