Bibliographic citations
Sánchez, R., (2022). Estudio experimental de la erosión local aguas abajo de una poza disipadora en un modelo físico en escala reducida 1/30” [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/5134
Sánchez, R., Estudio experimental de la erosión local aguas abajo de una poza disipadora en un modelo físico en escala reducida 1/30” []. PE: Universidad Andina del Cusco; 2022. https://hdl.handle.net/20.500.12557/5134
@misc{renati/958106,
title = "Estudio experimental de la erosión local aguas abajo de una poza disipadora en un modelo físico en escala reducida 1/30”",
author = "Sánchez Valencia, Redy",
publisher = "Universidad Andina del Cusco",
year = "2022"
}
The purpose of this research is to evaluate the local erosion, downstream of the dissipating pool in a physical model at a reduced scale of 1/30, with the purpose of studying local erosion, through experimental studies a physical model was built, for this purpose a 6 tests with the following flows 29.54 l/s, 63.39 l/s, 105.34 l/s, 148.23 l/s, 189.56 l/s and 232.65 l/s, a constant upstream level of 0.32 m and the following downstream levels were considered of 0.049 m, 0.084, 0.121 m, 0.115 m, 0.182 m and 0.219 m respectively, with average gate openings of 0.011 m, 0.0256 m, 0.0451 m, 0.0681 m, 0.094 m and 0.128 m respectively; The tests were carried out under the conditions of a subcritical flow, maintaining a Froude number between 0.017 to 0.453, and a Reynolds number between 6895.043 and 202540.5, considering it as a supercritical flow, for the tests a channel with a rectangular section of 13.00 m long was used. , 1.90 m wide and 1.90 m high, with a slope of 0.0008m/m; for flow velocity measurements, the Acoustic Dopler Velocimeter (ADV) was used; To evaluate erosion, a compacted bed with quasi-uniform sand with d50= 0.24 mm and a fineness modulus of 2.16 was considered for each test. As results of the investigation, the maximum erosion was determined for the 6 tests, at 8 h, 10 h, 10 h, 8 h, 10 h and 10 hours respectively, and the observed erosion is 0.023 m, 0.073 m, 0.110 m, 0.166 m , 0.209 m and 0.244 mm respectively, it was also shown that the erosion as a function of time grows logarithmically in the last 5 tests, but the same is not true in the test corresponding to the flow rate of 29.54 l/s. Regarding the speed profiles, they do not resemble any of the profiles found by Nik Hassan and Rangaswami Narayanan who investigated a similar case where they evaluated the speed profiles.
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