Experimental Characterisation of Different Ecological Substrates for Use in Green Roof Systems

Green roofs are made up of several components, including those belonging to the waterproofing and drainage layers, substrate, and vegetation. Of these, the substrate is undoubtedly one of the most important layers of a green roof, contributing not only to the healthy growth of vegetation but also to the water retention capacity and thermal behaviour of the whole solution. Although green roofs are widely recognized as sustainable solutions, it is possible to further improve their environmental performance by developing more ecological substrates that contain industrial by-products. Bearing this objective in mind, sixteen newly developed substrates were characterized in terms of thermal conductivity, specific heat, emissivity, water vapour transmission, hygroscopic sorption, and water retention/drainage capacity. These properties are extremely relevant when solving heat and mass transfer problems as well as for water management prediction. Two reference substrates were also studied for comparison purposes. The results showed that the new ecological substrates have properties that make them comparable to conventional substrates already available on the market. Additionally, the results showed that temperature, moisture content, and density play an important role in the behaviour of substrates of this kind and have a significant influence on many of the studied properties.

Automated summary

Green roofs are composed of waterproofing and drainage layers, substrate, and vegetation. The substrate is crucial for the healthy growth of vegetation, water retention, and thermal behavior. By developing ecological substrates containing industrial by-products, the environmental performance of green roofs can be further improved. Sixteen newly developed substrates were characterized to study their properties related to thermal conductivity, specific heat, emissivity, water vapor transmission, hygroscopic sorption, and water retention/drainage capacity. The results showed that these ecological substrates have comparable properties to conventional substrates already available on the market, and temperature, moisture content, and density play significant roles in their behavior.