Bibliographic citations
Benites, E., Beltrán, C. (2020). Estudio de la erosión local en los pilares del puente punta moreno emplazado en el cauce del río Chicama, la libertad 2019 [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/6797
Benites, E., Beltrán, C. Estudio de la erosión local en los pilares del puente punta moreno emplazado en el cauce del río Chicama, la libertad 2019 [Tesis]. PE: Universidad Privada Antenor Orrego; 2020. https://hdl.handle.net/20.500.12759/6797
@misc{renati/378472,
title = "Estudio de la erosión local en los pilares del puente punta moreno emplazado en el cauce del río Chicama, la libertad 2019",
author = "Beltrán Sáenz, Christian Alejandro",
publisher = "Universidad Privada Antenor Orrego",
year = "2020"
}
The present investigation makes an estimate of the local undermining in the pillars of the Punta Moreno bridge, since both the accumulation of sediment and the undermining in the pillars represent a threat to the sub-structure, it is at this point that we can identify sediment accumulation in one of the pillars that is forcing the riverbed to move north causing a very probable erosion of the riverbed on the right side of the riverbed, it is inevitable that a maximum flood will leave this sector of the site in very bad conditions. So, it is necessary to know how and how it can be presented; by means of a virtual scenario using two-dimensional numerical models in order to know and visually verify said behavior and thus make decisions based on the approach of numerous solutions to counteract these negative effects. The topographic survey of the Chicama river bed was carried out in the sector of the ““Punta Moreno““ bridge site, obtaining heights in the range of 403 to 504 MASL; the estimation of the maximum flood flow for a return period of 500 years resulted in 4394.44 m3/s. With the support of a two-dimensional hydraulic model we calculated the maximum tensioner ,with values ranging from 4.33 to 5.77 m; we obtained representative maximum speeds that are located downstream of the bridge with values between 11.45 and 13.73 m/s, in the bridge sector is between 9.16 m/s and 11.45 m/s. Thanks to the elaboration of the hydraulic model, we conclude that of the three most affected is the central pillar, with an interval of 3.25 to 3.51m depth for undermining and maximum undermining in the left pillar is 2.99m, and in the right pillar reaches a maximum value of 1.68 m. According to the observed in the model, with respect to sediment transport, in the sector of the pillars is medium strong, the interval is between 0.06 m2 /s and 0.08 m2 /s.
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