Monday, December 10, 2012

How Reflective Roofing Works and Saves You Money

The availability of viable and energy-efficient cool roofing products has expanded greatly in recent years. Building owners, managers, and architects increasingly use these products because of their capacity for energy savings.

Managers in institutional and commercial facilities also can achieve several other benefits, such as: lower interior temperatures, greater occupant comfort, and smaller cooling loads on HVAC systems. A growing number of building codes also mandate the use of cool roofs, and voluntary programs are increasingly including them as a key element of sustainable design.

By understanding some of the science behind cool roofs and the questions to ask in specifying these systems, managers can more effectively match product options to the organizations’ needs.

How is it Cool? Specifying a cool roof for an institutional or commercial facility can be a smart decision, but not everyone is clear on what exactly cool entails. Cool roofs have been around for quite some time and are increasingly popular options in many areas of the United States. Still, managers often do not understand the performance details of cool roofs.

A cool roof is highly reflective and can easily emit the small amounts of heat it absorbs; allowing the surface of the roof to remain cooler and transferring less heat into the building.

Two radiative properties define a cool roof. Solar reflectance describes the fraction of solar energy the roof reflects. Thermal emittance describes the relative ability of the roof’s surface to radiate absorbed heat. Both of these properties are measured from 0 to 1, and the higher the number, the cooler the roof.

Here is where part of the confusion comes in. Many elements of a roof’s structure, such as insulation, can affect a building’s interior temperature and its performance. These elements are obviously important, but “cool roof” refers specifically to the roof’s radiative surface properties.

It stands to reason that light-colored surfaces have high reflectance, and many early rebate programs for cool roofs used this characteristic as the only requirement. Uncoated shiny metal surfaces reflect the sun’s energy efficiently, but they have very low emittance. As a result, they become very hot during the day. A roof that demonstrates both high solar reflectance and high thermal emittance is essential for managers seeking to improve a facility’s energy performance


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