Evaluation of Energy Efficiency Measures in High-rise Buildings from a Life Cycle Greenhouse Gas Emissions Perspective

Abstract

Due to its significant contribution to greenhouse gas (GHG) emissions, the building industry is taking action to fight climate change, developing measures for reducing the operational emissions of buildings. However, some of these well-intentioned measures can result in higher embodied emissions. Under certain conditions, this increase in embodied emissions can more than offset the reductions achieved during the building operational phase. This thesis evaluates the effectiveness of five passive energy efficiency measures to reduce GHG emissions from a life cycle perspective for high-rise residential buildings in Toronto, Canada. Decreasing the window-to-wall ratio was found to be the most effective measure to reduce total GHG emissions. Increasing the continuous insulation on walls and roofs with GHG intensive materials can increase total emissions. The thesis also compares the embodied GHG emissions of curtain walls and window walls finding no practical difference in embodied GHG emissions between the options studied.