Moisture content of indoor air and structures in buildings with vapor-permeable envelopes

Carey J. Simonson; Mikael H. Salonvaara; Tuomo Ojanen

Moisture content of indoor air and structures in buildings with vapor-permeable envelopes

Carey J. Simonson, Mikael H. Salonvaara, Tuomo Ojanen

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

12 Scopus citations

Abstract

It is known that a vapor-resistant layer on the inside of an insulated envelope in cold climates is needed to prevent excessive diffusion of water vapor from indoor air into the building envelope. However, the required magnitude of this vapor resistance has been debated in recent years. In this paper, the moisture transfer between indoor air and the building envelope and the moisture performance of a building envelope that has no plastic vapor retarder is analyzed with field measurements and numerical simulations. The results show that the diffusion resistance of the internal surface should be greater than the diffusion resistance of the external surface for a structure safe from moisture but that the vapor resistance of the vapor retarder can be significantly below that provided by polyethylene, even in cold climates. Meanwhile, the moisture transfer between indoor air and the building envelope can moderate the indoor humidity, which improves indoor climate and comfort.

Original language	English
Title of host publication	Buildings VIII
Subtitle of host publication	Thermal Performance of Exterior Envelopes of Whole Buildings
Publisher	American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE)
ISBN (Electronic)	1883413966, 9781883413965
State	Published - Jan 1 2001
Externally published	Yes
Event	8th International Conference on Thermal Performance of Exterior Envelopes of Whole Buildings 2001 - Clearwater, United States Duration: Dec 2 2001 → Dec 7 2001

Publication series

Name	Thermal Performance of the Exterior Envelopes of Whole Buildings
ISSN (Electronic)	2166-8469

Conference

Conference	8th International Conference on Thermal Performance of Exterior Envelopes of Whole Buildings 2001
Country/Territory	United States
City	Clearwater
Period	12/2/01 → 12/7/01

Funding

This research was financed by the Finnish Ministry of the Environment. A postdoctoral research fellowship from the Natural Sciences and Engineering Research Council of Canada (NSERC) to Carey Simonson is also appreciated.

Cite this

Simonson, C. J., Salonvaara, M. H., & Ojanen, T. (2001). Moisture content of indoor air and structures in buildings with vapor-permeable envelopes. In Buildings VIII: Thermal Performance of Exterior Envelopes of Whole Buildings (Thermal Performance of the Exterior Envelopes of Whole Buildings). American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE).

Simonson, Carey J. ; Salonvaara, Mikael H. ; Ojanen, Tuomo. / Moisture content of indoor air and structures in buildings with vapor-permeable envelopes. Buildings VIII: Thermal Performance of Exterior Envelopes of Whole Buildings. American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2001. (Thermal Performance of the Exterior Envelopes of Whole Buildings).

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abstract = "It is known that a vapor-resistant layer on the inside of an insulated envelope in cold climates is needed to prevent excessive diffusion of water vapor from indoor air into the building envelope. However, the required magnitude of this vapor resistance has been debated in recent years. In this paper, the moisture transfer between indoor air and the building envelope and the moisture performance of a building envelope that has no plastic vapor retarder is analyzed with field measurements and numerical simulations. The results show that the diffusion resistance of the internal surface should be greater than the diffusion resistance of the external surface for a structure safe from moisture but that the vapor resistance of the vapor retarder can be significantly below that provided by polyethylene, even in cold climates. Meanwhile, the moisture transfer between indoor air and the building envelope can moderate the indoor humidity, which improves indoor climate and comfort.",

author = "Simonson, {Carey J.} and Salonvaara, {Mikael H.} and Tuomo Ojanen",

note = "Publisher Copyright: {\textcopyright} 2001 American Society of Heating, Refrigeration, and Air-Conditioning Engineers (ASHRAE). All rights reserved.; 8th International Conference on Thermal Performance of Exterior Envelopes of Whole Buildings 2001 ; Conference date: 02-12-2001 Through 07-12-2001",

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Simonson, CJ, Salonvaara, MH & Ojanen, T 2001, Moisture content of indoor air and structures in buildings with vapor-permeable envelopes. in Buildings VIII: Thermal Performance of Exterior Envelopes of Whole Buildings. Thermal Performance of the Exterior Envelopes of Whole Buildings, American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 8th International Conference on Thermal Performance of Exterior Envelopes of Whole Buildings 2001, Clearwater, United States, 12/2/01.

Moisture content of indoor air and structures in buildings with vapor-permeable envelopes. / Simonson, Carey J.; Salonvaara, Mikael H.; Ojanen, Tuomo.
Buildings VIII: Thermal Performance of Exterior Envelopes of Whole Buildings. American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), 2001. (Thermal Performance of the Exterior Envelopes of Whole Buildings).

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

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N2 - It is known that a vapor-resistant layer on the inside of an insulated envelope in cold climates is needed to prevent excessive diffusion of water vapor from indoor air into the building envelope. However, the required magnitude of this vapor resistance has been debated in recent years. In this paper, the moisture transfer between indoor air and the building envelope and the moisture performance of a building envelope that has no plastic vapor retarder is analyzed with field measurements and numerical simulations. The results show that the diffusion resistance of the internal surface should be greater than the diffusion resistance of the external surface for a structure safe from moisture but that the vapor resistance of the vapor retarder can be significantly below that provided by polyethylene, even in cold climates. Meanwhile, the moisture transfer between indoor air and the building envelope can moderate the indoor humidity, which improves indoor climate and comfort.

AB - It is known that a vapor-resistant layer on the inside of an insulated envelope in cold climates is needed to prevent excessive diffusion of water vapor from indoor air into the building envelope. However, the required magnitude of this vapor resistance has been debated in recent years. In this paper, the moisture transfer between indoor air and the building envelope and the moisture performance of a building envelope that has no plastic vapor retarder is analyzed with field measurements and numerical simulations. The results show that the diffusion resistance of the internal surface should be greater than the diffusion resistance of the external surface for a structure safe from moisture but that the vapor resistance of the vapor retarder can be significantly below that provided by polyethylene, even in cold climates. Meanwhile, the moisture transfer between indoor air and the building envelope can moderate the indoor humidity, which improves indoor climate and comfort.

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Moisture content of indoor air and structures in buildings with vapor-permeable envelopes

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