|
Descripción
|
|
|---|---|
| According to the European policies energy efficiency is one of the central objectives to be able to achieve the energy and climate goals for 2020. The building sector is responsible for the 40% of total energy consumption in the European Union according to the Directive 2010 / 31 / EU. This Directive sets guidelines for the reduction of 20% of primary energy consumption in buildings by 2020. Also predicted the reduction 20% greenhouse gas emissions from 1990 levels and a 20% increase of renewable energy production. These objectives have been updated by the 2030 Energy Strategy in which the European Commission proposes the reduction of greenhouse gas emissions at 40% relative to emissions in 1990, the share of renewable energy at least 27% and the increase of energy levels of 25%. Therefore, the need to create housing with a favorable environmental factor. This article analyzes the design, the monitoring and the results obtained for the thermal behavior of a glass building. The study is carried out with the monitoring, in the same period of time, of two scale models of the Farnsworth House constructed with different glasses. The evolution of temperatures by the external faces of the different glazings in the four orientations is analyzed. Key words: glass, monitoring, surface temperature, bioclimatic architecture. | |
|
Internacional
|
Si |
|
Nombre congreso
|
IV International Congress on Construction and Building Research. COINVEDI2017 |
|
Tipo de participación
|
730 |
|
Lugar del congreso
|
Escuela Politécnica Superior de Ingeniería. Arquitectura Técnica Universidad de La Laguna. Tenerife, Spain |
|
Revisores
|
Si |
|
ISBN o ISSN
|
978-84-933567-6-7 |
|
DOI
|
|
|
Fecha inicio congreso
|
14/12/2017 |
|
Fecha fin congreso
|
15/12/2017 |
|
Desde la página
|
1 |
|
Hasta la página
|
10 |
|
Título de las actas
|
IV International Congress on Construction and Building |