An assessment of the relationship between embodied and thermal energy demands in dwellings in a Mediterranean climate

•A group of 92 sub-scenarios were evaluated in dwellings in a Mediterranean climate.•The relationship between embodied and thermal energy demands was evaluated.•The insulation of thermal bridges caused slight increases in the embodied energy. Currently, climate change has become a research priority....

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Bibliographic Details
Published inEnergy and buildings Vol. 109; pp. 230 - 244
Main Authors Rosselló-Batle, Beatriz, Ribas, Carlos, Moià-Pol, Andreu, Martínez-Moll, Víctor
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.12.2015
Subjects
Construction materials
Embodied energy
Final thermal energy demand
Primary thermal energy consumption
Residential building
DA DB-HE/1
CDD
DB-HE1
Embodied energy
DA DB-HE/3
GHG
PW
Construction materials
EPS
HDD
ITeC
EPBD
BESTEST
Primary thermal energy consumption
TBC
Final thermal energy demand
XPS
IDAE
IF
CB
GF
IEA
COP
HU-tool
IEE
MW
LCA
PUR
EER
LCI
Residential building
PVC
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Summary:•A group of 92 sub-scenarios were evaluated in dwellings in a Mediterranean climate.•The relationship between embodied and thermal energy demands was evaluated.•The insulation of thermal bridges caused slight increases in the embodied energy. Currently, climate change has become a research priority. In many countries, new regulations have emerged with the aim of reducing energy consumption and CO2 emissions. In this work, 92 sub-scenarios were evaluated in a case study building. The final goal was to obtain the relationship between the thermal energy demand and the initial embodied energy (IEE) when a change was made in the building typology, taking into consideration ten different facades, three roofing systems, and three window frame types. The results showed that the use of injected polyurethane or extruded polystyrene in facades, and the replacement of timber in window frames by lacquered aluminium, provided increases of the primary IEE equivalent to the final heating energy requirements of a detached house for more than 5 and 10 years, respectively. The insulation of thermal bridges at the junction of external walls and concrete floor slabs caused increases in the primary IEE, which were observed to be within 1.17 and 12 times lower than the final annual heating requirements of the building when not insulated. Finally, an estimation of the primary thermal energy requirements was made, taking into account three different energy systems and a 50-year building lifetime.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2015.10.007