A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Investigation of occupant-related energy aspects of the National Building Code of Canada: Energy use impact and potential least-cost code-compliant upgrades
Following our previous study, which indicated that several occupant-related assumptions in the National Building Code (NBC) of Canada are different from findings in recent measurement-based studies, this study aims to: i) quantify the direct energy impact associated with discrepancies between the current code’s occupant-related assumptions and those obtained from recent measurement-based studies and ii) demonstrate how key NBC requirements could be reevaluated as a result of the new/proposed occupant-related assumptions. In this regard, this paper applies energy modeling and life cycle costing (LCC) to 11 representative archetypes across different Canadian climate zones. First, EnergyPlus simulations were conducted to evaluate the energy impact of the proposed and existing occupant-related assumptions. Second, LCC was used to evaluate code requirements’ economic implications under these two sets of occupant assumptions. Our results indicate that the default occupant-related assumptions used by NBC generally lead to higher predicted heating, but lower cooling, energy consumption. However, heating energy is more significant since heating energy use is typically an order of magnitude higher than cooling energy use for Canadian homes. Our analysis also indicates that the current occupant-related NBC assumptions yield different optimal potential code-compliant upgrades in some cases relative to the new energy-related occupant assumptions.
Investigation of occupant-related energy aspects of the National Building Code of Canada: Energy use impact and potential least-cost code-compliant upgrades
Following our previous study, which indicated that several occupant-related assumptions in the National Building Code (NBC) of Canada are different from findings in recent measurement-based studies, this study aims to: i) quantify the direct energy impact associated with discrepancies between the current code’s occupant-related assumptions and those obtained from recent measurement-based studies and ii) demonstrate how key NBC requirements could be reevaluated as a result of the new/proposed occupant-related assumptions. In this regard, this paper applies energy modeling and life cycle costing (LCC) to 11 representative archetypes across different Canadian climate zones. First, EnergyPlus simulations were conducted to evaluate the energy impact of the proposed and existing occupant-related assumptions. Second, LCC was used to evaluate code requirements’ economic implications under these two sets of occupant assumptions. Our results indicate that the default occupant-related assumptions used by NBC generally lead to higher predicted heating, but lower cooling, energy consumption. However, heating energy is more significant since heating energy use is typically an order of magnitude higher than cooling energy use for Canadian homes. Our analysis also indicates that the current occupant-related NBC assumptions yield different optimal potential code-compliant upgrades in some cases relative to the new energy-related occupant assumptions.
Investigation of occupant-related energy aspects of the National Building Code of Canada: Energy use impact and potential least-cost code-compliant upgrades
Abdeen, Ahmed (author) / O’Brien, William (author) / Gunay, Burak (author) / Newsham, Guy (author) / Knudsen, Heather (author)
Science and Technology for the Built Environment ; 27 ; 1393-1424
2021-11-26
32 pages
Article (Journal)
Electronic Resource
Unknown
Energy Impact Assessment of Occupant-Related Assumptions of the National Building Code of Canada
| Springer Verlag | 2023