Affiliation:
1. Department of Chemical and Environmental Process Engineering, Faculty of Chemical Technology and Biotechnology, Budapest University of Technology and Economics, Műegyetem rkp. 3., H-1111 Budapest, Hungary
Abstract
Glass wool is an insulation material used in large quantities; despite its popularity, it is still surprising that around 2.5 million tons of mineral wool waste is generated every year in Europe. Waste management faces numerous challenges because, with current technologies, waste cannot be cleaned and melted again for repurposing, so even the recollected glass wool ends up in landfill. Herein, we present a hydrolysis technology that decomposes the binder applied to glass fibers using exclusively water. We succeeded in decomposing the resin from the surfaces of the end-of-life fibers, originating from different sources like industrial furnace insulation and two demolition-sourced building insulation wastes. The effects of temperature, pressure, the mass flow of the water, and the applied fluid ratio were investigated. The most important parameters are the temperature and the time for the decomposition, but to minimize glass loss through the solubility of glass, the fluid ratio plays an important role as well. The fibers were efficiently cleaned after only 20 min at 300 °C by the optimized parameters, with a mass recovery of 70 wt.%.
Funder
Ministry of Culture and Innovation of Hungary from the National Research, Development and Innovation Fund
Reference38 articles.
1. Fibers of Glass;Anderson;MRS Bull.,1990
2. Technological Development of the Mineral Wool Industry in Europe;Ohberg;Ann. Occup. Hyg.,1987
3. Lucintel (2024, June 06). Mineral Wool Insulation Market: Trends, Opportunities and Competitive Analysis [2024–2030]. Available online: https://www.marketresearch.com/Lucintel-v2747/Mineral-Wool-Insulation-Trends-Opportunities-37369462/.
4. Mineral Wool Waste in Europe: A Review of Mineral Wool Waste Quantity, Quality, and Current Recycling Methods;J. Mater. Cycles Waste Manag.,2014
5. Rudjord, F. (2018). Recycling of Glass Wool Waste. [Master’s Thesis, Norwegian University of Science and Technology].