Bibliographic citations
Córdova, A., (2021). Diseño de un dispositivo de trituración de minerales de 75 t/h, por medio de análisis con el método de elementos discretos [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/22185
Córdova, A., Diseño de un dispositivo de trituración de minerales de 75 t/h, por medio de análisis con el método de elementos discretos [Tesis]. PE: Universidad Nacional de Ingeniería; 2021. http://hdl.handle.net/20.500.14076/22185
@misc{renati/711765,
title = "Diseño de un dispositivo de trituración de minerales de 75 t/h, por medio de análisis con el método de elementos discretos",
author = "Córdova Rodríguez, Anthony Raúl",
publisher = "Universidad Nacional de Ingeniería",
year = "2021"
}
The present work consist in a design of an innovative impact crusher. The application is based on discrete element method (DEM) as the main tool, through computational simulations that include impact energy analysis, breakage modelling (using Tavares Breakage Model) and product size analysis. The design process is divided into five stages, which range from the generation of the solution concept to the presentation of the shapes and dimensions of the final components of the device. The generation of the concept, based on the Ulrich and Eppinger methodology, applies a systematic exploration of solutions that solve the problems of the design and check the objective specifications. The resulting concept is a device that allows the crushing of minerals by impacts with rotating components, called rotors. The concept is concretized through the creation of components, whose shapes and dimensions have been modeled and optimized through performance evaluations, using DEM simulations. The device is complemented with the incorporation of machine elements of the power transmission system. Finally, to the resulting assembly, static and dynamic FEM analysis is applied to ensure reliability. For DEM computational simulations, Rocky-DEM commercial platform was used, the simulations that was calibrated and validated using data from simulated and experimental breakage tests comparison results. For FEM analysis ANSYS software was used. The result is a compact and functional four-axis crusher actuated by two 15 kW at 1775 rpm. The device is capable of processing limestone, can work on feed up to 250 mm, at capacity of 75 t/h and reduction ratio of 20:1.
This item is licensed under a Creative Commons License