Citas bibligráficas
Chávez, K., (2021). Diseño y análisis de funcionamiento de la bocatoma san Juan, Virú mediante un modelamiento hidráulico bidimensional, la libertad 2020 [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/7384
Chávez, K., Diseño y análisis de funcionamiento de la bocatoma san Juan, Virú mediante un modelamiento hidráulico bidimensional, la libertad 2020 [Tesis]. PE: Universidad Privada Antenor Orrego; 2021. https://hdl.handle.net/20.500.12759/7384
@misc{renati/379891,
title = "Diseño y análisis de funcionamiento de la bocatoma san Juan, Virú mediante un modelamiento hidráulico bidimensional, la libertad 2020",
author = "Chávez Correa, Kheyner Antony",
publisher = "Universidad Privada Antenor Orrego",
year = "2021"
}
This research is developed with the purpose of implementing a water catchment structure for the use and administration of water resources in the town of Tomaval. For which it was taken into account, the hydraulic dimensioning that consists of the calculation of the different dimensions of each sub-structure that together make up the intake and the computational hydraulic modeling CDF that will corroborate said dimensioning, putting it to the test. In compliance with the goals, basic engineering studies were carried out, the topography obtaining an A = 2.23km2 and a slope of 1.5%; EMS Soil Mechanics study to know the nature of the material obtaining a soil SP sand poorly graded with a low amount of silt according to SUCS and a hydrological study to carry out the projection of the flow in a return period of 100 years, resulting in 185.51m3 / s. The results obtained for the design, it was determined that the design flow of the intake is 0.70m3 / s, the dimensions of the intake window is 1.50m wide by 0.50m high, mobile bar with a length of 5.80 m and 80 meters in length of fixed bar, channeling walls with a height of 4.00m and a thickness of 0.50m. Within the hydraulic modeling, a 3- dimensional model was also implemented to reinforce the performance analysis and thus guarantee the performance of the structure under the projected water loads, since the 3D model is equivalent to a laboratory test.
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