Achieving a low carbon housing stock: An analysis of low-rise residential carbon reduction measures for new construction in Ontario

Residential buildings contributed 14% of Canada's greenhouse gas emissions in 2014, making this sector pivotal to climate change mitigation. In 2016, the provincial government of Ontario, Canada mandated a net-zero carbon standard for new “small buildings” by 2030, meaning the low-rise resident...

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Bibliographic Details
Published in:Building and environment 2017-12, Vol.126, p.176-183
Main Authors: Ismailos, Christina, Touchie, Marianne F.
Format: Article
Language:English
Subjects:
Airtightness
Building codes
Building envelopes
Carbon
Carbon reduction
Climate change
Climate change mitigation
Construction
Construction costs
Cost analysis
Emissions
Energy
Energy modeling
Energy modelling
Energy performance
Environmental impact
Green buildings
Greenhouse effect
Greenhouse gases
Heat recovery
High performance housing
Housing
Insulation
Low-rise residential
Net zero
Residential areas
Residential buildings
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Summary:Residential buildings contributed 14% of Canada's greenhouse gas emissions in 2014, making this sector pivotal to climate change mitigation. In 2016, the provincial government of Ontario, Canada mandated a net-zero carbon standard for new “small buildings” by 2030, meaning the low-rise residential sector must undergo major changes to meet this target. Through an energy modelling analysis of a typical single-family home in Ontario, this study demonstrates the potential carbon emissions savings of different reduction strategies, including changes to the building envelope and mechanical system. The most effective strategies include increasing building airtightness, installing additional exterior insulation, and switching to an air source heat pump for heating and cooling. These strategies were then analysed based on the incremental cost above a house built to the building code baseline. In terms of cost per kilogram of carbon mitigated, the most efficient strategies are further insulating the basement, adding additional exterior insulation, and increasing the efficiency of the heat recovery ventilator. Finally, a policy discussion demonstrates that carbon reductions implemented at the design stage must be verified and monitored post-occupancy using policy tools such as energy reporting and small-scale performance studies. •New single-family homes can be built net-zero carbon cost-effectively.•Carbon reductions are greatest when combining key envelope and mechanical systems.•Reduction measures are assessed in terms of cost per carbon mitigated.•A monitoring program is proposed to confirm actual carbon reductions.
ISSN:0360-1323
1873-684X
DOI:10.1016/j.buildenv.2017.09.034