Bibliographic citations
Castañeda, P., (2016). Implementación de un disipador para la reducción de energía hidráulica en la central hidroeléctrica El Platanal en Cañete [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/10811
Castañeda, P., Implementación de un disipador para la reducción de energía hidráulica en la central hidroeléctrica El Platanal en Cañete [Tesis]. PE: Universidad Privada del Norte; 2016. https://hdl.handle.net/11537/10811
@misc{renati/515600,
title = "Implementación de un disipador para la reducción de energía hidráulica en la central hidroeléctrica El Platanal en Cañete",
author = "Castañeda Rojas, Pompio Rolo",
publisher = "Universidad Privada del Norte",
year = "2016"
}
ABSTRACT In the present dissertation titled: Implementation of a dissipator for the reduction of hydraulic energy, a structure is developed that govern the phenomenon of the energy dissipation due to the discharge of flow through the channel of entry to the precinter of the dam Capillucas of the Hydraulic Power Plant The Platanal whose main objective is the partial reduction of the excess speed that causes waves and turbulence. For the realization of implementation, the design and simulation with the assistance of engineering software was considered, taking the variables according to the study of the hydraulic regime to determine and validate the operation. The dissipator implementation was performed in three stages: The first part was the evaluation of the design of the physical model composed of metal profiles and structures and simulation of the same, with the program Solid Works and Ansys 15, following the norms and international standards to guarantee its operation and resistance. The second stage was concentrated in the manufacture of the dissipator according to the plans and technical specifications determined by the engineering area of the company Dimperu. The third stage was the installation of the dissipator in the field, following a strict control of the operation processes. It is worth mentioning that in this last stage, tests were also carried out on the operation of the dissipator thus fulfilling the main objective of reducing excess water flow velocity which represents a high cost of maintaining in the operations of the plant due To the saturation of the purging zone of sanders. Finally, in order to quantify the results of the presented proposal, tests are carried out and measurements of the energy of the flow in the implemented model, upstream and downstream of the channel of the landfill towards the shredder with which finally, after analyzing the factors and variables, It is possible to achieve successful dissipation effects of the water velocity in the presented alternative.
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