Antonijevic, Dragi

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Energy Efficiency and Sustainability of Biofibres-Based Thermal Insulation

Antonijevic, Dragi; Jelić, Ivana; Petrić, Ivana; Zakić, Dimitrije; Savić, Aleksandar R.; Komatina, Mirko; Perić, Milica; Sljivic-Ivanovic, Marija

(Humbolt-Club Serbia, Studentski trg 1, 11000 Belgrade, Serbia University of Belgrade - Faculty of Forestry, Kneza Višeslava 1, 11030 Belgrade, Serbia, 2018) 

TY  - CONF
AU  - Antonijevic, Dragi
AU  - Jelić, Ivana
AU  - Petrić, Ivana
AU  - Zakić, Dimitrije
AU  - Savić, Aleksandar R.
AU  - Komatina, Mirko
AU  - Perić, Milica
AU  - Sljivic-Ivanovic, Marija
PY  - 2018
UR  - https://grafar.grf.bg.ac.rs/handle/123456789/2011
AB  - Energy efficiency of residential and commercial buildings is acutely important as this sector is responsible for approximately 40% of overall energy consumption and around 35% of CO2 emissions (in the European Union). The construction sector has intense environmental footprint due to exploitation of non-renewable material and energy resources, land use and generation of waste materials during construction and demolition. It is therefore important to develop sustainable building structures, practices and materials with minimal resources and energy use. Utilization of energy efficient, sustainable and resource-saving building materials is of particular importance. The study is carried out to investigate possibilities and evaluate effects of application of biofibres-based structures as non-constructive and/or insulating materials in current building practice. Focus is on natural, dominantly cellulose, fibres, traditionally used in the past (hemp, reed, straw, flax, rice hulls, cotton stalks, sunflower, cattail, bagasse, etc) as well as on some promising grass/reed cultures, such as Miscanthus x Giganteus. The experimental examinations of thermal and mechanical properties decisive for the performance of thermal insulation have been undertaken. Expectedly, the thermal conductivity, as the material characteristic primarily responsible for Operational Energy Consumption, has been found mostly worse than in commonly used, mass produced, thermal insulation materials such as expanded or extruded polystyrene, glass or mineral wool, etc. On the other hand, conclusions of Life Cycle Analysis and examination of Embodied Energy advocates the utilization of designated natural biofibres-based thermal insulation as more sustainable and in the long run (Cradle to Grave) energy efficient alternative to the conventional insulation materials.
PB  - Humbolt-Club Serbia, Studentski trg 1, 11000 Belgrade, Serbia University of Belgrade - Faculty of Forestry, Kneza Višeslava 1, 11030 Belgrade, Serbia
C3  - Humboldt Kolleg 2018 „Sustainable Development and Climate Change: Connecting Research, Education, Policy and Practice“
T1  - Energy Efficiency and Sustainability of Biofibres-Based Thermal Insulation
UR  - https://hdl.handle.net/21.15107/rcub_grafar_2011
ER  - 
@conference{
author = "Antonijevic, Dragi and Jelić, Ivana and Petrić, Ivana and Zakić, Dimitrije and Savić, Aleksandar R. and Komatina, Mirko and Perić, Milica and Sljivic-Ivanovic, Marija",
year = "2018",
abstract = "Energy efficiency of residential and commercial buildings is acutely important as this sector is responsible for approximately 40% of overall energy consumption and around 35% of CO2 emissions (in the European Union). The construction sector has intense environmental footprint due to exploitation of non-renewable material and energy resources, land use and generation of waste materials during construction and demolition. It is therefore important to develop sustainable building structures, practices and materials with minimal resources and energy use. Utilization of energy efficient, sustainable and resource-saving building materials is of particular importance. The study is carried out to investigate possibilities and evaluate effects of application of biofibres-based structures as non-constructive and/or insulating materials in current building practice. Focus is on natural, dominantly cellulose, fibres, traditionally used in the past (hemp, reed, straw, flax, rice hulls, cotton stalks, sunflower, cattail, bagasse, etc) as well as on some promising grass/reed cultures, such as Miscanthus x Giganteus. The experimental examinations of thermal and mechanical properties decisive for the performance of thermal insulation have been undertaken. Expectedly, the thermal conductivity, as the material characteristic primarily responsible for Operational Energy Consumption, has been found mostly worse than in commonly used, mass produced, thermal insulation materials such as expanded or extruded polystyrene, glass or mineral wool, etc. On the other hand, conclusions of Life Cycle Analysis and examination of Embodied Energy advocates the utilization of designated natural biofibres-based thermal insulation as more sustainable and in the long run (Cradle to Grave) energy efficient alternative to the conventional insulation materials.",
publisher = "Humbolt-Club Serbia, Studentski trg 1, 11000 Belgrade, Serbia University of Belgrade - Faculty of Forestry, Kneza Višeslava 1, 11030 Belgrade, Serbia",
journal = "Humboldt Kolleg 2018 „Sustainable Development and Climate Change: Connecting Research, Education, Policy and Practice“",
title = "Energy Efficiency and Sustainability of Biofibres-Based Thermal Insulation",
url = "https://hdl.handle.net/21.15107/rcub_grafar_2011"
}
Antonijevic, D., Jelić, I., Petrić, I., Zakić, D., Savić, A. R., Komatina, M., Perić, M.,& Sljivic-Ivanovic, M.. (2018). Energy Efficiency and Sustainability of Biofibres-Based Thermal Insulation. in Humboldt Kolleg 2018 „Sustainable Development and Climate Change: Connecting Research, Education, Policy and Practice“
Humbolt-Club Serbia, Studentski trg 1, 11000 Belgrade, Serbia University of Belgrade - Faculty of Forestry, Kneza Višeslava 1, 11030 Belgrade, Serbia..
https://hdl.handle.net/21.15107/rcub_grafar_2011
Antonijevic D, Jelić I, Petrić I, Zakić D, Savić AR, Komatina M, Perić M, Sljivic-Ivanovic M. Energy Efficiency and Sustainability of Biofibres-Based Thermal Insulation. in Humboldt Kolleg 2018 „Sustainable Development and Climate Change: Connecting Research, Education, Policy and Practice“. 2018;.
https://hdl.handle.net/21.15107/rcub_grafar_2011 .
Antonijevic, Dragi, Jelić, Ivana, Petrić, Ivana, Zakić, Dimitrije, Savić, Aleksandar R., Komatina, Mirko, Perić, Milica, Sljivic-Ivanovic, Marija, "Energy Efficiency and Sustainability of Biofibres-Based Thermal Insulation" in Humboldt Kolleg 2018 „Sustainable Development and Climate Change: Connecting Research, Education, Policy and Practice“ (2018),
https://hdl.handle.net/21.15107/rcub_grafar_2011 .