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Vidal, D., (2017). Diseño de estructura para el soporte de un sistema solar fotovoltaico y eólico con bambú [Tesis, Universidad Nacional Agraria La Molina]. https://hdl.handle.net/20.500.12996/3142
Vidal, D., Diseño de estructura para el soporte de un sistema solar fotovoltaico y eólico con bambú [Tesis]. : Universidad Nacional Agraria La Molina; 2017. https://hdl.handle.net/20.500.12996/3142
@misc{renati/249085,
title = "Diseño de estructura para el soporte de un sistema solar fotovoltaico y eólico con bambú",
author = "Vidal Llanos, Dennis Albert",
publisher = "Universidad Nacional Agraria La Molina",
year = "2017"
}
Title: Diseño de estructura para el soporte de un sistema solar fotovoltaico y eólico con bambú
Authors(s): Vidal Llanos, Dennis Albert
Advisor(s): Bravo Aguilar, Carlos Alberto
Keywords: Bambues; Estructuras de protección; Construcciones; Colectores solares; Energía eólica; Energía solar; Diseño de proyectos; Métodos; Perú
OCDE field: https://purl.org/pe-repo/ocde/ford#2.01.03
Issue Date: 2017
Institution: Universidad Nacional Agraria La Molina
Abstract: El Bambú es un recurso natural renovable, con excelentes propiedades físico-mecánicas las cuales son aprovechadas para la construcción de estructuras sismorresistentes. En la actualidad, se utilizan materiales convencionales para la construcción de obras civiles e infraestructuras dependiendo de la complejidad del proyecto. En este trabajo de investigación, se plantea el uso del Bambú como material estructural en el diseño de estructuras de soporte para un sistema solar fotovoltaico y eólico. Además, se darán a conocer 5 prototipos de estructuras los cuales fueron diseñadas para soportar cargas de servicio (panales solares, aerogenerador, viento, etc.) aplicando el método de los esfuerzos admisibles tal y como se explica en la norma E.100 Bambú, que trata de comparar estos valores admisibles propios del material con las cargas que se le aplicaron a nuestras estructuras. Los elementos que componen dichos prototipos se diseñaron bajo fuerza axial, momento flexionante y fuerza cortante. En ninguno de los casos se produjo falla, es decir que los esfuerzos admisibles del material superaron a los esfuerzos producidos en cada elemento producto de aplicarle cargas a la estructura
Bamboo is a renewable natural resource, with excellent physical-mechanical properties which are used for the construction of resistant earthquakes structures. At present, conventional materials are used for the construction of civil works and infrastructures depending on the complexity of the project. In this research work, the use of Bamboo as a structural material in the design of support structures for a photovoltaic and wind solar system is considered. In addition, 5 prototypes of structures which were designed to support service loads (solar panels, wind turbine, wind, etc.) will be announced, applying the method of admissible stresses as explained in the E.100 Bamboo standard. That tries to compare these admissible values of the material with the loads that were applied to our structures. The elements that make up these prototypes were designed under axial force, bending moment and shear force. In none of the cases did failure occur, that is to say that the admissible stresses of the material surpassed the efforts produced in each element product of applying loads to the structure
Bamboo is a renewable natural resource, with excellent physical-mechanical properties which are used for the construction of resistant earthquakes structures. At present, conventional materials are used for the construction of civil works and infrastructures depending on the complexity of the project. In this research work, the use of Bamboo as a structural material in the design of support structures for a photovoltaic and wind solar system is considered. In addition, 5 prototypes of structures which were designed to support service loads (solar panels, wind turbine, wind, etc.) will be announced, applying the method of admissible stresses as explained in the E.100 Bamboo standard. That tries to compare these admissible values of the material with the loads that were applied to our structures. The elements that make up these prototypes were designed under axial force, bending moment and shear force. In none of the cases did failure occur, that is to say that the admissible stresses of the material surpassed the efforts produced in each element product of applying loads to the structure
Link to repository: https://hdl.handle.net/20.500.12996/3142
Note: Universidad Nacional Agraria La Molina. Facultad de Ingeniería Agrícola. Departamento Académico de Ordenamiento Territorial y Construcción
Discipline: Ordenamiento Territorial y Construcción
Grade or title grantor: Universidad Nacional Agraria La Molina. Facultad de Ingeniería Agrícola
Grade or title: Ingeniero Agrícola
Register date: 21-Mar-2018
This item is licensed under a Creative Commons License