Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit

Beñat Arregi Goikolea; Roberto Garay Martinez; Alberto Riverola Lacasta; Daniel Chemisana Villegas

Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit

Beñat Arregi Goikolea, Roberto Garay Martinez, Alberto Riverola Lacasta, Daniel Chemisana Villegas

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Citations (Scopus)

Abstract

Rear-ventilated rainscreen façade insulation systems are becoming a popular retrofit solution in Southern European climates, due to their good thermal performance in both winter and summer conditions. In these assemblies, the substructure of the new cladding is anchored to the original building, thus puncturing the thermal insulation. This study assesses the impact of such thermal bridges on the overall thermal performance of the external wall. The renovation of a conventional Spanish wall construction with a ventilated façade is used as a case study, featuring an anchoring system with L-shaped aluminium brackets. Two scenarios have been assessed: in the first one these brackets are fixed onto both the reinforced concrete slabs and the existing brickwork of the building, while in the second one they are anchored solely to the structural slabs. Simplified one-dimensional calculations are compared with two-and three-dimensional numerical models. Results indicate that anchoring elements can account for a substantial increase in heat flow. If the additional heat transfer through the anchoring elements is not taken into account, the energy savings delivered by the renovation could be considerably lower than expected by calculations, resulting in an increase of energy consumption over predicted values.

Original language	English
Title of host publication	REHABEND
Editors	Luis Villegas, Ignacio Lombillo, Haydee Blanco, Yosbel Boffill, Luis Villegas, Ignacio Lombillo, Haydee Blanco, Yosbel Boffill
Publisher	University of Cantabria - Building Technology R&D Group
Pages	1694-1701
Number of pages	8
ISBN (Print)	9788469770320, 9788469770320
Publication status	Published - 2018
Event	7th Euro-American Congress on Construction Pathology, Rehabilitation Technology and Heritage Management, REHABEND 2018 - Cáceres, Spain Duration: 15 May 2018 → 18 May 2018

Publication series

Name	REHABEND
Volume	0
ISSN (Print)	2386-8198

Conference

Conference	7th Euro-American Congress on Construction Pathology, Rehabilitation Technology and Heritage Management, REHABEND 2018
Country/Territory	Spain
City	Cáceres
Period	15/05/18 → 18/05/18

Keywords

Finite element method
Thermal bridge
Thermal insulation
Ventilated façade

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

Arregi Goikolea, B., Garay Martinez, R., Riverola Lacasta, A., & Chemisana Villegas, D. (2018). Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit. In L. Villegas, I. Lombillo, H. Blanco, Y. Boffill, L. Villegas, I. Lombillo, H. Blanco, & Y. Boffill (Eds.), REHABEND (pp. 1694-1701). (REHABEND; Vol. 0). University of Cantabria - Building Technology R&D Group.

Arregi Goikolea, Beñat ; Garay Martinez, Roberto ; Riverola Lacasta, Alberto et al. / Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit. REHABEND. editor / Luis Villegas ; Ignacio Lombillo ; Haydee Blanco ; Yosbel Boffill ; Luis Villegas ; Ignacio Lombillo ; Haydee Blanco ; Yosbel Boffill. University of Cantabria - Building Technology R&D Group, 2018. pp. 1694-1701 (REHABEND).

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title = "Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for fa{\c c}ade retrofit",

abstract = "Rear-ventilated rainscreen fa{\c c}ade insulation systems are becoming a popular retrofit solution in Southern European climates, due to their good thermal performance in both winter and summer conditions. In these assemblies, the substructure of the new cladding is anchored to the original building, thus puncturing the thermal insulation. This study assesses the impact of such thermal bridges on the overall thermal performance of the external wall. The renovation of a conventional Spanish wall construction with a ventilated fa{\c c}ade is used as a case study, featuring an anchoring system with L-shaped aluminium brackets. Two scenarios have been assessed: in the first one these brackets are fixed onto both the reinforced concrete slabs and the existing brickwork of the building, while in the second one they are anchored solely to the structural slabs. Simplified one-dimensional calculations are compared with two-and three-dimensional numerical models. Results indicate that anchoring elements can account for a substantial increase in heat flow. If the additional heat transfer through the anchoring elements is not taken into account, the energy savings delivered by the renovation could be considerably lower than expected by calculations, resulting in an increase of energy consumption over predicted values.",

keywords = "Finite element method, Thermal bridge, Thermal insulation, Ventilated fa{\c c}ade",

author = "{Arregi Goikolea}, Be{\~n}at and {Garay Martinez}, Roberto and {Riverola Lacasta}, Alberto and {Chemisana Villegas}, Daniel",

note = "Publisher Copyright: {\textcopyright} 2018, University of Cantabria - Building Technology R&D Group. All rights reserved.; 7th Euro-American Congress on Construction Pathology, Rehabilitation Technology and Heritage Management, REHABEND 2018 ; Conference date: 15-05-2018 Through 18-05-2018",

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series = "REHABEND",

publisher = "University of Cantabria - Building Technology R&D Group",

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Arregi Goikolea, B, Garay Martinez, R, Riverola Lacasta, A & Chemisana Villegas, D 2018, Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit. in L Villegas, I Lombillo, H Blanco, Y Boffill, L Villegas, I Lombillo, H Blanco & Y Boffill (eds), REHABEND. REHABEND, vol. 0, University of Cantabria - Building Technology R&D Group, pp. 1694-1701, 7th Euro-American Congress on Construction Pathology, Rehabilitation Technology and Heritage Management, REHABEND 2018, Cáceres, Spain, 15/05/18.

Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit. / Arregi Goikolea, Beñat; Garay Martinez, Roberto; Riverola Lacasta, Alberto et al.
REHABEND. ed. / Luis Villegas; Ignacio Lombillo; Haydee Blanco; Yosbel Boffill; Luis Villegas; Ignacio Lombillo; Haydee Blanco; Yosbel Boffill. University of Cantabria - Building Technology R&D Group, 2018. p. 1694-1701 (REHABEND; Vol. 0).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit

AU - Arregi Goikolea, Beñat

AU - Garay Martinez, Roberto

AU - Riverola Lacasta, Alberto

AU - Chemisana Villegas, Daniel

PY - 2018

Y1 - 2018

N2 - Rear-ventilated rainscreen façade insulation systems are becoming a popular retrofit solution in Southern European climates, due to their good thermal performance in both winter and summer conditions. In these assemblies, the substructure of the new cladding is anchored to the original building, thus puncturing the thermal insulation. This study assesses the impact of such thermal bridges on the overall thermal performance of the external wall. The renovation of a conventional Spanish wall construction with a ventilated façade is used as a case study, featuring an anchoring system with L-shaped aluminium brackets. Two scenarios have been assessed: in the first one these brackets are fixed onto both the reinforced concrete slabs and the existing brickwork of the building, while in the second one they are anchored solely to the structural slabs. Simplified one-dimensional calculations are compared with two-and three-dimensional numerical models. Results indicate that anchoring elements can account for a substantial increase in heat flow. If the additional heat transfer through the anchoring elements is not taken into account, the energy savings delivered by the renovation could be considerably lower than expected by calculations, resulting in an increase of energy consumption over predicted values.

AB - Rear-ventilated rainscreen façade insulation systems are becoming a popular retrofit solution in Southern European climates, due to their good thermal performance in both winter and summer conditions. In these assemblies, the substructure of the new cladding is anchored to the original building, thus puncturing the thermal insulation. This study assesses the impact of such thermal bridges on the overall thermal performance of the external wall. The renovation of a conventional Spanish wall construction with a ventilated façade is used as a case study, featuring an anchoring system with L-shaped aluminium brackets. Two scenarios have been assessed: in the first one these brackets are fixed onto both the reinforced concrete slabs and the existing brickwork of the building, while in the second one they are anchored solely to the structural slabs. Simplified one-dimensional calculations are compared with two-and three-dimensional numerical models. Results indicate that anchoring elements can account for a substantial increase in heat flow. If the additional heat transfer through the anchoring elements is not taken into account, the energy savings delivered by the renovation could be considerably lower than expected by calculations, resulting in an increase of energy consumption over predicted values.

KW - Finite element method

KW - Thermal bridge

KW - Thermal insulation

KW - Ventilated façade

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M3 - Conference contribution

AN - SCOPUS:85057962119

SN - 9788469770320

T3 - REHABEND

SP - 1694

EP - 1701

BT - REHABEND

A2 - Villegas, Luis

A2 - Lombillo, Ignacio

A2 - Blanco, Haydee

A2 - Boffill, Yosbel

A2 - Villegas, Luis

A2 - Lombillo, Ignacio

A2 - Blanco, Haydee

A2 - Boffill, Yosbel

PB - University of Cantabria - Building Technology R&D Group

T2 - 7th Euro-American Congress on Construction Pathology, Rehabilitation Technology and Heritage Management, REHABEND 2018

Y2 - 15 May 2018 through 18 May 2018

ER -

Arregi Goikolea B, Garay Martinez R, Riverola Lacasta A, Chemisana Villegas D. Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit. In Villegas L, Lombillo I, Blanco H, Boffill Y, Villegas L, Lombillo I, Blanco H, Boffill Y, editors, REHABEND. University of Cantabria - Building Technology R&D Group. 2018. p. 1694-1701. (REHABEND).

Heat transfer through anchoring elements in a rear-ventilated rainscreen insulation system for façade retrofit

Abstract

Publication series

Conference

Keywords

UN SDGs

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