LARHYSS JOURNAL 1112-3680 / 2521-9782

The normal flow depth is an important parameter in the design and analysis of free-surface flow problems for both man-made and natural channels. The implicit character of the governing Manning’s equation in rectangular-shaped channels requires a trial and error process for the computation of the normal flow depth, which sometimes leads to a large sequence computation. In this paper, a novel exact analytical approach based on the -perturbation expansion is proposed as a solution to the issue of computing normal depth in channels with rectangular cross sections. For practical purposes, the explicit analytical expression obtained provides a particularly precise solution. To show the application of the suggested approach, some examples are presented as illustrative examples.

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