Mathematical Models for Flow Simulation in Cipoletti Weirs Used in Irrigation Systems

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Published: Feb 15, 2017
Keywords:
calibration, discharge coefficient, hydrodynamic channel, flow measurement

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Luis Manuel Sandoval Mendoza
Universidad de San Carlos de Guatemala (USAC)

Abstract

This paper presents the results of the research carried out at the Laboratory of Fluid Mechanics and Hydraulics of the University San Carlos de Guatemala, where different weir Cipolleti were built with different values of base (b) in the range of 5-60 centimeters. A polynomial model of second order to estimate the parameters K and n of the exponential equation to estimate the flow and potential for discharge coefficient Cd function was found. The model to estimate the theoretical flow rate suggested by the hydraulics and hydrometrics manual and the one obtained by SPSS statistical program presented the highest relative errors; however, the rest of the tested models showed a good correlation with the observed flow rates of error less than 2%. The general experimental model relating discharge coefficient obtained reliable values for all evaluated widths and load heights (H) between 4 and 10 centimeters.

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How to Cite
Sandoval Mendoza, L. M. (2017). Mathematical Models for Flow Simulation in Cipoletti Weirs Used in Irrigation Systems. Revista Ciencias Técnicas Agropecuarias, 26(1), 57–65. Retrieved from https://revistas.unah.edu.cu/index.php/rcta/article/view/479
Issue
Vol. 26 No. 1 (2017): January-February-March
Section
Original Articles

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Author Biography

Luis Manuel Sandoval Mendoza, Universidad de San Carlos de Guatemala (USAC)

Dr.C., Prof., Facultad de Ingeniería

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