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Pridobivanje statističnih podatkov

Mednarodni projekti vir: SICRIS

Mineral wool waste back to loop with advanced sorting, pre-treatment, and alkali activation

Uredi
Raziskovalci (13)
št. Evidenčna št. Ime in priimek Razisk. področje Vloga Obdobje Štev. publikacij
1.  39206  dr. Urška Blumauer  Gradbeništvo  Raziskovalec  2019 - 2022  29 
2.  53261  Ana Brodar  Gradbeništvo  Raziskovalec  2019 - 2022 
3.  11292  dr. Vilma Ducman  Gradbeništvo  Vodja  2019 - 2022  503 
4.  39809  Ana Frankovič  Gradbeništvo  Raziskovalec  2019 - 2022  28 
5.  30873  dr. Barbara Horvat  Materiali  Raziskovalec  2019 - 2022  111 
6.  14943  Friderik Knez  Gradbeništvo  Raziskovalec  2019 - 2022  289 
7.  51589  Anja Lešek  Gradbeništvo  Raziskovalec  2019 - 2022  24 
8.  18452  Roman Maček    Raziskovalec  2019 - 2022  38 
9.  37333  dr. Katja Malovrh Rebec  Energetika  Raziskovalec  2019 - 2022  87 
10.  35473  dr. Majda Pavlin  Kemija  Raziskovalec  2019 - 2022  126 
11.  12521  dr. Andrijana Sever Škapin  Gradbeništvo  Raziskovalec  2019 - 2022  428 
12.  18454  Dušica Tauzes    Raziskovalec  2019 - 2022  10 
13.  31344  Lina Završnik  Gradbeništvo  Raziskovalec  2019 - 2022  24 
Organizacije (2)
št. Evidenčna št. Razisk. organizacija Kraj Matična številka Štev. publikacij
1.  0774  TERMIT rudarsko podjetje kremenovih peskov in oplemenitenje nekovin, d.d.  Moravče  5033896  51 
2.  1502  Zavod za gradbeništvo Slovenije  Ljubljana  5866324000  10.455 
Povzetek
Mineral wool within construction and demolition waste (CDW) is considered largely unrecyclable. It is formed at a rate of 2.5 Mt/year and although it is only 0.2 % of total CDW, it requires disproportionally large space due to low density. The WOOL2LOOP project aims to close this material loop by introducing novel technology and value chain to CDW sorting, pretreatment, and processing. The quality of sorted mineral wool is upgraded by comparing and combining the following approaches: pre-demolition audit, robotized demolition and sorting, novel on-site analysis with time-gated Raman spectroscopy, and smart demolition practices. Pre-treatment involves logistical considerations and milling of the mineral wool waste to sufficiently small particles. Processing utilizes alkali-activation (i.e., geopolymerization) technology to convert reactive silica and alumina of the mineral wool into new building material products. Alkali-activation in this context is a completely new approach and it enables to diversely adjust the resulting material properties. Therefore, a broad selection of products were selected for WOOL2LOOP, ranging from relatively low to high value products: hollow core and pavement slabs, facade elements, acoustic panels, dry concrete, floor screed and 3D-printing equipment, for instance. All the required technologies and product manufacturing cases will be demonstrated in large-scale pilots with a wide geographic coverage within the EU. The consortium includes several leading large construction material enterprises and innovative SMEs to cover the whole value chain. Safety, health, environmental, and economic aspects are considered throughout the project. According to the preliminary calculations, there is a strong business potential in the WOOL2LOOP concept. Finally, the constantly increasing landfilling costs (approx. 250 M€ for mineral wool in the EU) create a clear economic driver for the project.
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