Bibliographic citations
León, M., (2019). Diseño de un domo de adobe sismorresistente con propiedades fotocatalizadoras en la encañada - Cajamarca [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/5646
León, M., Diseño de un domo de adobe sismorresistente con propiedades fotocatalizadoras en la encañada - Cajamarca [Tesis]. : Universidad Privada Antenor Orrego - UPAO; 2019. https://hdl.handle.net/20.500.12759/5646
@misc{renati/380897,
title = "Diseño de un domo de adobe sismorresistente con propiedades fotocatalizadoras en la encañada - Cajamarca",
author = "León Cornejo, Marcos Isaac",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2019"
}
This thesis is divided into two analyzes, the first will be the seismic analysis of the dome and the second thermal analysis of the dome. The seismic analysis that we will develop will be not of the entire architectural model but of the base structure, that is, the analysis will be of the dome taking as adobe predominant material, we will focus on the deformations both by own weight and by those proposed by the load conjugations of the E.020 standard, as a seismic requirement, the pseudo-acceleration design spectrum suggested by the Peruvian seismic-resistant design standard was used. Modal reactions were added with both the CQC combination method and the combination pattern recommended by NTP E.030. This to determine that both a domain is feasible and a housing proposal. The second point of interest for us will be the thermal analysis, which we will develop using as thermal loads the kwh / m2 absorbed by the collector plates and the surface of the dome, it should be noted that the energy absorbed by the dome will be less than that of the plates collectors since the dome that made of adobe and its thermal conductivity is inferior to that of the material that we will use in the collector plates. With all this we will determine how much you can raise the interior temperature of the home without using other forms of heating. As a complement, a calculation of heating loads was made with the help of the software, it was revived to determine how much energy was needed to maintain thermal comfort in all the environments of the house. After generating multiple simulations with the robot structural analysis tool found that the deformations due to the seismic acceleration in the “X“, “Y“ and “Z“ axes do not reach a millimeter of deformation, that is, it does not exceed the distortion limit ( derivative) established in standard E.030 of 0.007. As for the thermal gain through the trombe walls we see that there is an increase in the internal temperature of the dome but not enough to only use it, it is necessary to heat by traditional methods such as artisanal kitchens that families usually use of low resources, but using less fuel for the task.
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