Effect of cool roofs on commercial buildings energy use in cold climates: Fid-Bau Portal

Effect of cool roofs on commercial buildings energy use in cold climates

Hosseini, Mirata / Akbari, Hashem

Highlights • We simulated energy consumption for prototype office and retail buildings in cold-climates. • The effect of snow on roofs was simulated. • Cool roofs saved net annual energy expenditure in all climates. • Accounting for the effect of snow, the winter penalties were reduced. • Cool roofs reduced the peak electric demand for all buildings.

Abstract We used DOE-2.1E to simulate energy consumption for several prototype office and retail buildings in four cold-climate cities in North America: Anchorage, Milwaukee, Montreal, and Toronto. To simulate the effect of snow on the roof, we defined a function calculating the daily U-value and absorptivity of the roof. Cool roofs for the simulated buildings resulted in annual energy expenditure savings in all cold climates. In Anchorage, the simulated annual heating energy consumptions of the old retail building with a dark versus a cool roof (without snow) are 123.5 and 125.8GJ/100m², respectively (a 2.3GJ/100m² penalty for the cool roof). With snow, the heating penalties decreased to 1.2GJ/100m², leading to an annual energy savings of 7$/100m² of roof area. For an old retail building in Montreal and Toronto, a cool roof can save up to 62$/100m² and 37$/100m², respectively. For a new, medium-sized office building with natural gas heating fuel, a cool roof would save 4$/100m² in Montreal, 14$/100m² in Milwaukee and Anchorage, and 10$/100m² in Toronto. Cool roofs can reduce the peak electric demand of the retail buildings up to 1.9 and 5.4W/m² in Toronto and Montreal, respectively.