Bibliographic citations
Rojas, D., (2018). Optimización del aislamiento térmico a través de la envolvente arquitectónica para el diseño de un centro experimental tecnológico agrario en Virú [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/13290
Rojas, D., Optimización del aislamiento térmico a través de la envolvente arquitectónica para el diseño de un centro experimental tecnológico agrario en Virú [Tesis]. PE: Universidad Privada del Norte; 2018. https://hdl.handle.net/11537/13290
@misc{renati/441838,
title = "Optimización del aislamiento térmico a través de la envolvente arquitectónica para el diseño de un centro experimental tecnológico agrario en Virú",
author = "Rojas Meza, Diana Estefanía",
publisher = "Universidad Privada del Norte",
year = "2018"
}
Bioclimatic architecture is to design projecting with the climate and context to achieve the well-being of the user and energy efficiency of the building applying a strategic use of thermal insulating material and passive and active mechanisms; focusing on the design of the architectural envelope. This envelope responds to the energy demand of the building, following design principles and conditions. Climate change has influenced the design and construction of architecture; however, this frequently does not lead to a prior study and evaluation of the environmental impact it can generate, resulting today with sick buildings and a low life cycle with high costs of maintenance. This research describes the main problem that currently affects the agricultural sector in the province of Virú, the lack of innovation centers that boost the production system, competitiveness and agricultural profitability. In turn, it also explains the lack of projects without bioclimatic considerations in the region. Consequently, the design of an Agricultural Technological Experimental Center regulated by the National Institute of Agrarian Innovation (INIA) is proposed, which applies principles of bioclimatic architecture in search of energy efficiency, focusing on the optimization of thermal insulation through the architectural envelope. The methodology is applying the research variables to the project through a previous study of antecedent cases. In addition, the interrelation of climate data and comfort conditions draw design guidelines to project potential energy demands and design strategies of the architectural envelope. Finally, the proposed design is evaluated in a bioclimatic or energy simulation software to conclude that it is possible to optimize the thermal insulation through the architectural envelope in the design of an Agricultural Technological Experimental Center.
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