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Assessment of the Impact of Interior Insulation on Exterior Walls in Three Swedish Buildings

Hamid, Akram Abdul LU orcid ; Arfvidsson, Jesper LU and Harderup, Lars Erik LU (2022) 15th International Conference on Thermal Performance of the Exterior Envelopes of Whole Buildings 2022 p.258-267
Abstract

Among thermal improvements of external walls in heritage buildings, interior insulation of external walls might be the only option. However, interior insulation is associated with several risks of damage due to the diminishment of the hygrothermal performance of the existing wall. This project aims to assess the impact of available solutions for interior insulation through field measurements and hygrothermal simulations on external walls in three Swedish buildings. Temperature and relative humidity were measured indoors, outdoors, and on the exterior and interior surfaces of the external walls. Measurements were used to validate models of the walls in WUFI Pro. The models were used to determine the impact of 13 different solutions for... (More)

Among thermal improvements of external walls in heritage buildings, interior insulation of external walls might be the only option. However, interior insulation is associated with several risks of damage due to the diminishment of the hygrothermal performance of the existing wall. This project aims to assess the impact of available solutions for interior insulation through field measurements and hygrothermal simulations on external walls in three Swedish buildings. Temperature and relative humidity were measured indoors, outdoors, and on the exterior and interior surfaces of the external walls. Measurements were used to validate models of the walls in WUFI Pro. The models were used to determine the impact of 13 different solutions for interior insulation. The solutions are either vapor-tight or open, and some are capillary active. The results were analyzed regarding risks for microbial growth using the Viitanen model. The validation regards the temperatures and relative humidity on the interior surfaces of the included walls and shows that the models can be accepted for an assessment. The validation also shows that the measured indoor climate can be replaced with an indoor climate standard yielding reliable results. The results show that the risk for damage relies on the design of the existing external wall. If the wall is already hydrophobically treated, the risks are reduced significantly. Furthermore, suppose the wall is poorly insulated. In that case, a larger relative reduction of the transmission losses might be achieved with a lower amount (thickness) of additional insulation, which also results in lower risks for moisture damage. Nonetheless, results show that all included external walls can be insulated from the interior without considerable risks of moisture damage, but that one of them should also be hydrophobically treated.

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author
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organization
publishing date
type
Chapter in Book/Report/Conference proceeding
publication status
published
subject
host publication
Thermal Performance of the Exterior Envelopes of Whole Buildings XV International Conference
pages
10 pages
publisher
American Society of Heating Refrigerating and Air-Conditioning Engineers
conference name
15th International Conference on Thermal Performance of the Exterior Envelopes of Whole Buildings 2022
conference location
Clearwater Beach, United States
conference dates
2022-12-05 - 2022-12-08
external identifiers
  • scopus:85167567317
ISBN
9781955516280
language
English
LU publication?
yes
id
696bc8ef-3c9b-42a5-9c39-bed0468f249c
date added to LUP
2023-11-22 15:40:16
date last changed
2023-11-22 15:41:23
@inproceedings{696bc8ef-3c9b-42a5-9c39-bed0468f249c,
  abstract     = {{<p>Among thermal improvements of external walls in heritage buildings, interior insulation of external walls might be the only option. However, interior insulation is associated with several risks of damage due to the diminishment of the hygrothermal performance of the existing wall. This project aims to assess the impact of available solutions for interior insulation through field measurements and hygrothermal simulations on external walls in three Swedish buildings. Temperature and relative humidity were measured indoors, outdoors, and on the exterior and interior surfaces of the external walls. Measurements were used to validate models of the walls in WUFI Pro. The models were used to determine the impact of 13 different solutions for interior insulation. The solutions are either vapor-tight or open, and some are capillary active. The results were analyzed regarding risks for microbial growth using the Viitanen model. The validation regards the temperatures and relative humidity on the interior surfaces of the included walls and shows that the models can be accepted for an assessment. The validation also shows that the measured indoor climate can be replaced with an indoor climate standard yielding reliable results. The results show that the risk for damage relies on the design of the existing external wall. If the wall is already hydrophobically treated, the risks are reduced significantly. Furthermore, suppose the wall is poorly insulated. In that case, a larger relative reduction of the transmission losses might be achieved with a lower amount (thickness) of additional insulation, which also results in lower risks for moisture damage. Nonetheless, results show that all included external walls can be insulated from the interior without considerable risks of moisture damage, but that one of them should also be hydrophobically treated.</p>}},
  author       = {{Hamid, Akram Abdul and Arfvidsson, Jesper and Harderup, Lars Erik}},
  booktitle    = {{Thermal Performance of the Exterior Envelopes of Whole Buildings XV International Conference}},
  isbn         = {{9781955516280}},
  language     = {{eng}},
  pages        = {{258--267}},
  publisher    = {{American Society of Heating Refrigerating and Air-Conditioning Engineers}},
  title        = {{Assessment of the Impact of Interior Insulation on Exterior Walls in Three Swedish Buildings}},
  year         = {{2022}},
}