A field study on quality of three First Nation homes on the Squamish Urban Reserve of West Vancouver
Atwal, Loveleen (author) Mora, Rodrigo (thesis advisor) British Columbia Institute of Technology School of Construction and the Environment (Degree granting institution)
Dissertation/thesis
© Loveleen Atwal, 2015. All rights reserved. No part of this work covered by the copyright heron may be reproduced or used in any form or by any means – graphics, electronic, or mechanical including photocopying, taping, or information storage and retrieval systems – without written permission of the author.http://creativecommons.org/licenses/by-nc-nd/2.5/ca/http://rightsstatements.org/vocab/InC/1.0/
British Columbia Institute of Technology
2015-04-27
159 pages
Three new homes in the First Nations Squamish urban reserve were instrumented, tested, and monitored for a period of one year. Performance data was obtained from these homes and analyzed to help assess their quality and improve their performance. From the field study, the houses performed reasonably well. However, there is large room for improvements. Considering construction durability, the built-in moisture in the houses dried well. However, as expected, the moisture in the attics was high and improvements are recommended. The monitoring also confirmed that north facing walls take more time to dry and remain wet in some areas, despite the fact that the monitored year was one of the driest years in record, as reported by Environment Canada. Dangerously high moisture levels were also recorded in a few wall locations, believed to be caused by construction deficiencies at window sills and wall penetrations. In general, wall orientation and obstructions to solar radiation play a major role in the moisture balance of walls. This study confirmed that north-facing walls have higher moisture content, which also takes longer to dry out. South-facing and east-facing walls have lower moisture content (i.e. due to higher solar radiation and higher wall temperature to promote evaporation). The effect of external obstructions (i.e. large trees) to solar radiation was seen in the high moisture content of the west walls that was close to that of north walls. However, as reported in this study, poor construction detailing overpowers orientation on impacting wall moisture, and is the major source of concern for rain penetration. Unfortunately, wood-frame construction is unforgiving to construction deficiencies, and maximum care must be exercised to protect all details and wall penetrations from rain. Considering the indoor environment, in general the conditions were within acceptable limits; however, indoor conditions are greatly affected by occupants’ behaviours (e.g. opening windows in cold days). Particular problems arising from tobacco smoking and wood carving could not be measured. From the field study and computer simulations, it is recommended to make the houses more airtight to improve durability, energy efficiency, and possibly indoor air quality. It is also recommended to decouple the ventilation system from the house heating system to improve its ventilation reliability.
Monitoring First Nation homes Indoor air quality and energy efficiency CO2 contaminant dispersion models Ventilation
Ventilation Dwellings Indoor air quality Energy consumption
Eng
electronic
Master of Applied Science - MASc
Graduate
Building Science
West Vancouver (B.C.)
Master of Applied Science