Identification of Parameters Influencing the Accuracy of the Solution of the Nonlinear Muskingum Equation

Gąsiorowski, Dariusz; Szymkiewicz, Romuald

Identification of Parameters Influencing the Accuracy of the Solution of the Nonlinear Muskingum Equation

Dariusz Gąsiorowski () and Romuald Szymkiewicz ()
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Dariusz Gąsiorowski: Gdańsk University of Technology
Romuald Szymkiewicz: Gdańsk University of Technology

Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), 2020, vol. 34, issue 10, No 6, 3147-3164

Abstract: Abstract Two nonlinear versions of the Muskingum equation are considered. The difference between both equations relates to the exponent parameter. In the first version, commonly used in hydrology, this parameter is considered as free, while in the second version, it takes a value resulting from the kinematic wave theory. Consequently, the first version of the equation is dimensionally inconsistent, whereas the proposed second one is consistent. It is shown that the difference between the results provided by both versions of the nonlinear Muskingum equation depends on the longitudinal bed slope of a channel. For an increasing slope, when a propagating wave becomes more kinematic, the value of the exponent considered as the free parameter tends to its value resulting from the kinematic wave theory. Consequently, when the character of an open channel flow tends to a kinematic one, the dimensionally inconsistent version of the nonlinear Muskingum equation becomes a consistent one. The results of the numerical analysis suggest that apart from the parameters involved in the Muskingum equation, usually considered as free, the parameters of the numerical method of the solution (the number of reservoirs and the time step) should be considered also as free parameters. This conclusion results from the fundamental property of the Muskingum equation, relating to the numerical roots of the wave attenuation process. All numerical examples and tests relate to the solutions of the system of Saint Venant equations, considered as the benchmark.

Keywords: Flood routing; Nonlinear Muskingum equation; Kinematic wave equation; Dimensional consistency; Parameter identification (search for similar items in EconPapers)
Date: 2020
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Citations: View citations in EconPapers (3)

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DOI: 10.1007/s11269-020-02599-0

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