Green Roof Embodied Energy

By comparison a cool roof on this building will save about 700 btus per square foot per year.

Green roof embodied energy.

2009b study total embodied energy for the green roof components are 23 6 kg co 2 per square meter of green roof. Green roofs reduce building energy demand and improve thermal comfort. An example is cob using the earth available locally and mixing it with straw of which there are about 70 000 examples mainly in the south west of england. This value is equivalent to 6448 g c m 2 which is significantly greater than 378 g c m 2.

Concrete has a lower embodied energy but greater toxicity in its emissions. Highlights a green roof thermal model was coupled to a building simulation code. Because they are fired they can have an embodied energy of around 6 5 mj kg university of bath uk see wikipedia on embodied energy. Their contribution to insulating and shading buildings can help significantly in reducing energy consumption and carbon pollution.

According to a usgbc report published in 2006 over 70 percent of the green building research is focused on energy and atmosphere research. Both sod roofs and lwa based lightweight aggregates roofs have been found to have a negative impact on the quality of their resulting runoff. The next largest category of research is materials and resources. There can be occasional surprises.

Some of the traditional ways of house building are extremely low in embodied energy. The impact of a green roof on the roof temperature and heat flux is studied. The main pollution issues with steel roofing are the dioxins produced during smelting and the pollutants produced in the manufacture of the usual pvc. Green roofs provide significant thermal insulation and shading for a building.

The potential energy savings of green roofs should be balanced against the added embodied energy required for their construction. While this is lower than steel sheet products like concrete tiles clay tiles high mass per unit area comes into play so clay tiles will have a higher embodied energy per total roof area than sheet products. On first thoughts a living roof be it turf or sedum might seem to have less embodied energy than say a clay tile. Green building research is being done by national laboratories private companies universities and industry.

Assuming a generic industry root barrier drainage layer and 6 0 cm of substrate consisting of half sand and heat expanded slate by volume as was the case in the getter et al. In australia the energy benefits of green roofs are most pronounced in their ability to reduce summer cooling demands. The effects of the leaf area index the roof insulation and the climate are discussed. Though the embodied energy is high there are few toxicity issues involved in the manufacture of clay tiles.