Ponencia
Building and surroundings: thermal coupling
Autor/es | Rodríguez, E.
Sánchez de la Flor, Francisco José Rojas Fernández, Juan Manuel Galán-Marín, Carmen Fernández Nieto, Enrique Domingo Narbona Reina, Gladys Rincón Casado, Alejandro Catalán, A. |
Coordinador/Director | Díaz Moreno, José Manuel
Díaz Moreno, J. C. García-Vázquez, Carlos Medina Moreno, J. Ortegón Gallego, Francisco Pérez Martínez, C. Redondo Neble, María Victoria Rodríguez Galván, José Rafael |
Departamento | Universidad de Sevilla. Departamento de Construcciones Arquitectónicas I (ETSA) |
Fecha de publicación | 2015 |
Fecha de depósito | 2021-02-12 |
Publicado en |
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ISBN/ISSN | 9788498285277 |
Resumen | Energy building performance can be different according to outdoor conditions or urban environment, at the same time that this last assess, buildings are also affected by the building envelope, as obvious consequence of the ... Energy building performance can be different according to outdoor conditions or urban environment, at the same time that this last assess, buildings are also affected by the building envelope, as obvious consequence of the thermal and Aeraulic coupling existing between the indoor and outdoor conditions in buildings. Thus, in this coupling is fundamental to typify the transmission phenomenon through the building envelope. Doing this, it is possible to estimate transmission heating losses and gains and also the superficial temperatures of the envelope. In order to assess the transient behaviour of the building envelope it is necessary to develop a predictive model, precise enough, to be integrated in a simulating tool. Detailed and multidimensional models, based in numerical methods, like Finite Element Method (FEM), has a high precision, but its complexity imply resources consumption and computational time, too high to be integrated in these kind of tools. On the contrary, simplified methods are good enough because they are simple and fast, with an acceptable precision in almost all the situations. The present work is focused: (a) Firstly, to develop a simplified RC-network model. The aim of the model is to characterize and to implement with precision the behaviour of a wall in a simulating software tool based on urban environment, (b) secondly, to express in form of equivalences, the different indoor and outdoor excitations that can exist in the building envelope, and (c) finally, to calibrate the simplified model through its characteristic parameters. For a homogeneous wall and two types of excitations, it has been obtained the characteristic parameters of the model that represent the better adjustment to the real wall. In a first step, it has been obtained the results of the proposal model and a reference model based on FEM, in terms of wall external surface heat flow. Results of both models have been compared, and the resultant characteristic parameters of the model have been obtained through an optimisation method. Results for the wall and for the excitations under analysis show: (1) Characteristic longitude ec, or capacitive node position, it is determined according to a certain value of Fo equal to 2 for both excitations, this value remains constant in time, (2) useful wall thickness, on the contrary, vary as time function, according to a logarithmic law for both excitations, although this function is different depending on the considered excitation, (3) using a constant excitation, coefficients from the previous logarithmic function depends on the range of the excitation, while these are practically independent of the lineal excitation gradient. |
Cita | Rodríguez, E., Sánchez, F.J., Rojas Fernández, J.M., Galán-Marín, C., Fernández Nieto, E.D., Narbona Reina, G.,...,Catalán, A. (2015). Building and surroundings: thermal coupling. En XXIV Congress on Differential Equations and Applications (157-162), Cádiz: Universidad de Cádiz. |
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