Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation

Attic ventilation is typically recommended for the removal of moisture build-up caused by air leakage from indoors in cold climates, however, it may also increase the amount of snow and rain penetration into the attic, especially in the extremely cold climates. In northern regions, extremely cold te...

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Bibliographic Details
Main Author: Wang, Ruolin
Format: Thesis
Language:English
Published: 2019
Subjects:
Canada
Kuujjuaq
Iqaluit
Online Access:https://spectrum.library.concordia.ca/id/eprint/985365/
https://spectrum.library.concordia.ca/id/eprint/985365/1/Ruolin%20Wang_MASc_S2018.pdf
id ftconcordiauniv:oai:https://spectrum.library.concordia.ca:985365
record_format openpolar
spelling ftconcordiauniv:oai:https://spectrum.library.concordia.ca:985365 2023-05-15T16:55:55+02:00 Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation Wang, Ruolin 2019-03-31 text https://spectrum.library.concordia.ca/id/eprint/985365/ https://spectrum.library.concordia.ca/id/eprint/985365/1/Ruolin%20Wang_MASc_S2018.pdf en eng https://spectrum.library.concordia.ca/id/eprint/985365/1/Ruolin%20Wang_MASc_S2018.pdf Wang, Ruolin (2019) Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation. Masters thesis, Concordia University. Thesis NonPeerReviewed 2019 ftconcordiauniv 2022-05-28T19:03:33Z Attic ventilation is typically recommended for the removal of moisture build-up caused by air leakage from indoors in cold climates, however, it may also increase the amount of snow and rain penetration into the attic, especially in the extremely cold climates. In northern regions, extremely cold temperatures can cause snow particles to become very fine, which will penetrate vents or unsealed openings. The snow accumulated in the attic would melt at temperatures above zero and penetrate to indoors through the ceiling and cause moisture problems. One of the solutions is to add filter membranes along a ventilation cavity behind the façade to prevent snow from entering the attic. The ventilated attics with filter membrane had some success but there were instances with reported water leakages and moisture damages. There have been also attempts to use un-ventilated cold roofs. Un-ventilated attics prevent snow accumulation but do not allow for effective removal of moisture, which could be risky and prone to moisture damages. In this thesis, three houses in northern Canada are investigated, two of them have ventilated attics with different filter membrane designs located in Kuujjuaq and another has un-ventilated attic located in Iqaluit. Field measurements are setup in these three houses to monitor their hygrothermal performance under different venting systems. Measured results indicate ventilated attic has reasonable hygrothermal conditions which moisture content level on attic sheathing is under 20% and un-ventilated attic has higher risk of moisture problems. At the same time, hygrothermal modelling using WUFI Plus, a whole-building hygrothermal simulation software, are performed and simulation results are compared with measurements for model validation. Validated models are also performed in other location to further verify their universality. Attic ventilation rate, air leakage rate, un-intentional air infiltration rate and indoor conditions are set as variable parameters in WUFI Plus to discuss their effect on ... Thesis Iqaluit Kuujjuaq Spectrum: Concordia University Research Repository (Montreal) Canada Kuujjuaq ENVELOPE(-68.398,-68.398,58.100,58.100)
institution Open Polar
collection Spectrum: Concordia University Research Repository (Montreal)
op_collection_id ftconcordiauniv
language English
description Attic ventilation is typically recommended for the removal of moisture build-up caused by air leakage from indoors in cold climates, however, it may also increase the amount of snow and rain penetration into the attic, especially in the extremely cold climates. In northern regions, extremely cold temperatures can cause snow particles to become very fine, which will penetrate vents or unsealed openings. The snow accumulated in the attic would melt at temperatures above zero and penetrate to indoors through the ceiling and cause moisture problems. One of the solutions is to add filter membranes along a ventilation cavity behind the façade to prevent snow from entering the attic. The ventilated attics with filter membrane had some success but there were instances with reported water leakages and moisture damages. There have been also attempts to use un-ventilated cold roofs. Un-ventilated attics prevent snow accumulation but do not allow for effective removal of moisture, which could be risky and prone to moisture damages. In this thesis, three houses in northern Canada are investigated, two of them have ventilated attics with different filter membrane designs located in Kuujjuaq and another has un-ventilated attic located in Iqaluit. Field measurements are setup in these three houses to monitor their hygrothermal performance under different venting systems. Measured results indicate ventilated attic has reasonable hygrothermal conditions which moisture content level on attic sheathing is under 20% and un-ventilated attic has higher risk of moisture problems. At the same time, hygrothermal modelling using WUFI Plus, a whole-building hygrothermal simulation software, are performed and simulation results are compared with measurements for model validation. Validated models are also performed in other location to further verify their universality. Attic ventilation rate, air leakage rate, un-intentional air infiltration rate and indoor conditions are set as variable parameters in WUFI Plus to discuss their effect on ...
format Thesis
author Wang, Ruolin
spellingShingle Wang, Ruolin
Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation
author_facet Wang, Ruolin
author_sort Wang, Ruolin
title Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation
title_short Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation
title_full Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation
title_fullStr Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation
title_full_unstemmed Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation
title_sort attic ventilation in extremely cold climate - field measurements and hygrothermal simulation
publishDate 2019
url https://spectrum.library.concordia.ca/id/eprint/985365/
https://spectrum.library.concordia.ca/id/eprint/985365/1/Ruolin%20Wang_MASc_S2018.pdf
long_lat ENVELOPE(-68.398,-68.398,58.100,58.100)
geographic Canada
Kuujjuaq
geographic_facet Canada
Kuujjuaq
genre Iqaluit
Kuujjuaq
genre_facet Iqaluit
Kuujjuaq
op_relation https://spectrum.library.concordia.ca/id/eprint/985365/1/Ruolin%20Wang_MASc_S2018.pdf
Wang, Ruolin (2019) Attic Ventilation in Extremely Cold Climate - Field Measurements and Hygrothermal Simulation. Masters thesis, Concordia University.
_version_ 1766046950820413440

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