Thermal Performance of Foam Glass Aggregate at Different Compaction Ratios

Abstract: The use of glass waste in the construction industry has a high potential of leading to a higher recycling percentage. Foam glass aggregate (FGA) is around 98% recycled glass waste of various origins and has good insulation properties with big grain size distributions ranging between 10 mm and 60 mm. FGA has a wide range of applicability in the construction industry, which significantly differs from each implementation in the case of built-in conditions of the material. Therefore, investigating the impact of di… Show more

“…For this reason, various research efforts have focused on developing new materials that can compete in the market and have demonstrated the potential to create and utilize new environmentally low-impact insulation materials with residual natural fibers or recycled products [15,16]. These materials also maintain thermal comfort conditions and reduce energy consumption during the building's operational phase [17,18]. For instance, in 2018, Cárdenas et al developed a thermal insulation material using a natural polymer obtained from the Hydrangea Macrophylla plant, achieving an average thermal conductivity result of 0.042 [W/mK], comparable to traditional insulation materials [19].…”

Evaluation of Two Chilean Native Macroalgae: “Pelillo” (Gracilaria chilensis) and “Lamilla” (Ulva sp.) for Thermal Insulation Application

“…For this reason, various research efforts have focused on developing new materials that can compete in the market and have demonstrated the potential to create and utilize new environmentally low-impact insulation materials with residual natural fibers or recycled products [15,16]. These materials also maintain thermal comfort conditions and reduce energy consumption during the building's operational phase [17,18]. For instance, in 2018, Cárdenas et al developed a thermal insulation material using a natural polymer obtained from the Hydrangea Macrophylla plant, achieving an average thermal conductivity result of 0.042 [W/mK], comparable to traditional insulation materials [19].…”

Evaluation of Two Chilean Native Macroalgae: “Pelillo” (Gracilaria chilensis) and “Lamilla” (Ulva sp.) for Thermal Insulation Application