Bibliographic citations
Caballero, D., (2023). Estabilización de taludes y trabajos preliminares para la revegetación en el acceso a la central hidroeléctrica Cerro del Águila [Universidad Nacional Agraria La Molina]. https://hdl.handle.net/20.500.12996/6256
Caballero, D., Estabilización de taludes y trabajos preliminares para la revegetación en el acceso a la central hidroeléctrica Cerro del Águila []. PE: Universidad Nacional Agraria La Molina; 2023. https://hdl.handle.net/20.500.12996/6256
@misc{renati/1113924,
title = "Estabilización de taludes y trabajos preliminares para la revegetación en el acceso a la central hidroeléctrica Cerro del Águila",
author = "Caballero Beltran, Daniel Antonio",
publisher = "Universidad Nacional Agraria La Molina",
year = "2023"
}
The Cerro del Águila hydroelectric power plant faces challenges in the operation of energy production due to access problems to its camps, caused by a landslide that interrupts transportation in the area. In response to this issue, a comprehensive study has been carried out, including slope stabilization and revegetation of affected areas. The study included topographic analyses to understand the magnitude of the landslide and the amount of soil displaced, as well as geomechanical investigations to characterize the soil and determine its triaxial strength, crucial information for designing the stabilization structure. Four stabilization alternatives were evaluated, with Terramesh soil walls being the most suitable option due to their sustainability and ability to support revegetation in the area. The stability of the structure was calculated using Macstar software, obtaining static and pseudo-static safety factors of 2.737 and 1.708, respectively, which confirm the robustness of the solution. Since constant rainfall in the region represents a destabilizing risk, a complementary drainage system was designed. As a result of this design process, construction drawings were generated for the structures and the drainage system. In addition, metering and earthwork calculations were carried out, as well as the preparation of a budget and execution schedule based on data from Kallpa, the responsible company. This innovative approach, which prioritizes revegetation for environmental sustainability, presents a novel perspective on stabilization solutions in areas where preservation of the natural environment is critical. Overall, this study not only addresses the immediate challenges of the hydropower plant, but also contributes to the evolution of stabilization practices in sensitive natural environments.
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