Bibliographic citations
Milla, J., (2020). Diseño del sistema de protección contra descargas atmosféricas en campamentos mineros, para optimizar la distribución y cantidad de pararrayos Franklin en postes [Trabajo de suficiencia profesional, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/21664
Milla, J., Diseño del sistema de protección contra descargas atmosféricas en campamentos mineros, para optimizar la distribución y cantidad de pararrayos Franklin en postes [Trabajo de suficiencia profesional]. PE: Universidad Nacional de Ingeniería; 2020. http://hdl.handle.net/20.500.14076/21664
@misc{renati/711328,
title = "Diseño del sistema de protección contra descargas atmosféricas en campamentos mineros, para optimizar la distribución y cantidad de pararrayos Franklin en postes",
author = "Milla Beteta, Johnny Steven",
publisher = "Universidad Nacional de Ingeniería",
year = "2020"
}
In the present research work, a protection system against atmospheric discharges (SPDCA) was designed for mining camps using metal poles, the different heights to protect that are more relevant for mining camps were analyzed and in this way all the coverage of protection towards buildings and people. For the development of this work, the design and analysis of the caracoles temporary camp was carried out, which is located at 3861 meters above sea level, department of Moquegua, Peru. For this purpose, conventional lightning rods were used because they are the ones with proven evidence of their operation unlike non-conventional lightning rods. From what was obtained, the appropriate location of the lightning rods was obtained in the temporary camp Caracoles, and consequently the same design can be replicated for other mining camps in general, being of great importance to minimize the risk of lightning impacts on the buildings and / or people. For the development of the SPCDA design, an interactive tool was developed, using the analyzes carried out in the research of the protection area per unit of metal pole and collectively. This tool can be used using the AUTOCAD software for the graphic display of the protection coverage and the VISUALBASIC software on the Excel platform, where the programming was carried out. With this tool, the times in the elaboration of the design in a wide field were improved different buildings, such as the mining camps. It was recommended that for the design of the atmospheric protection system that has buildings of different heights and large coverage of common areas outside the buildings, the tool proposed in the present research work is used, since with this tool it is possible to carry out simulations of the coverage at different heights. Finally, the present research work provided as a result the design of the atmospheric protection system for the temporary camp caracoles, contrasting the design of the present research with the original design of the camp, for which the present research concluded that the design optimizes the distribution and the number of metal poles in the caracoles temporary camp using metal poles 18 meters high, which is recommended in the present research, and improving the reliability of the design.
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