Citas bibligráficas
Delgado, J., Mendoza, Y. (2020). Estudio del proyecto bocatoma San Benito en la localidad de Pampas de Jagüey, distrito y provincia de Ascope, La Libertad [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/6185
Delgado, J., Mendoza, Y. Estudio del proyecto bocatoma San Benito en la localidad de Pampas de Jagüey, distrito y provincia de Ascope, La Libertad [Tesis]. : Universidad Privada Antenor Orrego - UPAO; 2020. https://hdl.handle.net/20.500.12759/6185
@misc{renati/371048,
title = "Estudio del proyecto bocatoma San Benito en la localidad de Pampas de Jagüey, distrito y provincia de Ascope, La Libertad",
author = "Mendoza Gamarra, Yesenia Lisbet",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2020"
}
This research was carried out taking into account the nature of the Rio Chicama, which in addition to having a braided morphology, shows a wavy topography on its bed, forming sandbanks hoarding quite large areas, giving rise to a valley that is extends from both margins. For the study we use software that recreated the conditions required under a CDF Computational Fluid Dynamics Model, which allows to make a fast accurate and reliable design, thus avoiding doing laborious manual work. The analysis of the flow of the river was carried out under conditions of maximum avenues, we used one of the methodologies defined by the manual of hydrology, hydraulics and drainage, thus meeting the requirements demanded by the research project. Finally, we obtained satisfactory results that have met the objectives set for the redesign of the bocatoma, which indicates the fact of ensuring adequate capture and resistance to events of maximum avenues. Concluding that a solution alternative was proposed, which consists of a remodeling or rethinking of the complementary structures of the bocatoma, for this purpose a hydraulic performance test was carried out by means of a simulation with the Iber 2.3.4 software and as a result has corrected the danger of failure of structures in front of extraordinary maximum avenues, allowing the new bocatoma design to be more efficient, even under a maximum avenue flow rate of up to 1693.71 m3/s.
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