Green roof systems have a significant impact on the building's overall energy and material consumption. Take into consideration these impacts when implementing a green roof project in order to optimize building performance.
Green roofs reduce building energy use by cooling roofs and providing shading, thermal mass and insulation.
Building-Level Energy Reduction
The thickness, or thermal mass, of a green roof provides building insulation, retains heat, and reduces energy loads, while also acting as a barrier protecting the roof membrane from exposure. When internal building temperatures rise (server rooms, lighting, people, etc.), a green roof transfers excess heat through its membrane, media, and plants where it is cooled through modes of evaporation, conduction, and convection. See Living Architecture: Green Roofs for Public Buildings for more information.
Peak Energy Demand Reduction
Green roofs take longer to heat up and cool than conventional roofs because of their higher heat capacity (thermal mass). The membrane of a green roof reaches its peak temperature several hours after that of a conventional roof. This “thermal lag” leads to a reduced mid-day peak heat gain as well as to warmer nighttime temperatures for green roofs, which can benefit buildings occupied 24-hours a day.
At a municipal level, there is potential to avoid significant energy production at power plants due to this thermal lag. This in turn conserves water (used to create power), minimizes the creation of ground-level ozone, and ultimately reduces city-wide energy dependence.
An energy modeling study on peak summertime cooling demands and CO2 reductions at the city level was performed by Ryerson University. They calculated the impacts of urban heat islands and smog reductions using the city of Los Angeles, California, and determined that the city of L.A. could realize a savings of $100 million a year by greening 75% of its eligible rooftops.
The vegetation on a green roof removes fine particulates (PM), black carbon, and pollen out of the air, which lends well to incorporating solar panels within a green roof’s design. By removing particulates out of the air, green roofs can reduce maintenance cleaning requirements of PV equipment and enable the solar cells to absorb more light and operate more effectively.
- Plan to incorporate solar panels in the early in the design.
- Only install PV over extensive, shade-friendly vegetation.
- Shade provided by panels may promote biodiversity for shade-loving species.
For additional guidance, see the International Green Roof Association.
Reduced temperature fluctuations reduce thermal stress. Benefits of a green roof are realized through the extended life of the roof membrane, nearby equipment, and its related systems.
A conventional roof lasts 15-20 years, while a green roof typically lasts 40+. The extended roof life means that a significantly higher return on investment can be expected. As more green roofs are installed, reroofing activities will become less frequent. This results in saved money, time, and resources (through funding requests, contracting, design, oversight, etc.). Re-roofing half as often also saves “embodied energy.” This includes diversion of waste and reduction in all carbon forming activities involved in the re-roofing process such as manufacture, transportation, installation and disposal of materials.
Rooftop gardens and farms have been recognized as a promising form of urban agriculture, and a way to take advantage of a significant amount of flat space that receives steady sunlight throughout the day.
Using rooftop space for food production can:
- Help reduce the distance food travels to reach consumers.
- Reduce carbon emissions associated with food distribution.
- Provide fresh and local food options to building occupants and the local population.
- Provide an outlet to educate the local community about food production and seasonal variety.
- Boost property values through the addition of a new building service.
- Help create jobs.
Urban agriculture can appear in a variety of forms, such as container gardens, hydroponics, aquaponics, vertical farming, multi-tiered farming, technologies, apiculture, and rooftop gardens. This last form of urban agriculture, rooftop gardens, is one that can utilize available space over a somewhat limited environment.
Be sure to consider:
- Local zoning regulations and policies.
- The load-bearing capacity of existing roof infrastructure.
- Farming labor requirements, security and medium depths when selecting crops.
- Roof access concerns, such as safety.
Green Tips and Strategies
|Consider coupling photovoltaics with a green roof to optimize performance (see Solar/Photovoltaic).||Utilize an integrative team to determine the best strategies to optimize building performance.||Consider not only how the construction materials are managed but also how management of green roof materials will continue in the future.|
|During construction, ensure there is adequate drainage to prevent erosion of the growing media from stormwater.||Determine which green roof type is appropriate for your building project goals.||Educate the local community about food production and seasonal variety.|
|Consider local zoning regulations and policies when installing rooftop gardens for food production.|