Bibliographic citations
Fernandez, E., Mendoza, M. (2024). Diseño del sistema de drenaje de aguas de no contacto para la estabilidad del depósito de material excedente (DEM) en Mollepata región de La Libertad – Perú [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/672189
Fernandez, E., Mendoza, M. Diseño del sistema de drenaje de aguas de no contacto para la estabilidad del depósito de material excedente (DEM) en Mollepata región de La Libertad – Perú [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/672189
@misc{renati/414200,
title = "Diseño del sistema de drenaje de aguas de no contacto para la estabilidad del depósito de material excedente (DEM) en Mollepata región de La Libertad – Perú",
author = "Mendoza Arbildo, Mayra Consuelo",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
Nowadays, the proper management of the non-contact water drainage system is vital to ensure the stability of the excess material deposit (DEM). The need arises to determine what material will perform better in said system. The general objective was to determine the material that best behaves in the Non-Contact Water Drainage System to stabilize the surplus material deposit (DEM). The specific objectives included developing the hydrological analysis, sizing the drainage system with the capacity to conduct the flows of extreme events, determining the safety factors of the slopes, and evaluating the wear of the 1.0 mm smooth geomembrane and the tarp of 6.0 mm concrete. For these objectives, methods such as Frederick-Bell and multiple regression were used to estimate safety factors. Rainfall intensity, duration, and frequency data were collected, as well as wear data on the lining materials, obtaining a design flow of total Q 0.152 m3/s. Furthermore, the slopes evaluated showed safety factors of 1.612 in the static analysis and 1.126 in the Pseudostatic analysis. Regarding the wear of the lining materials, it was observed that the smooth geomembrane suffered a lost wear volume of 156,168 m3, while the concrete canvas recorded a volume of 171,610 m3. In conclusion, this study provides information for the planning and designing of hydraulic infrastructures, allowing factors such as rainfall intensity, slope stability, and wear of lining materials to be considered.
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