Elsevier

Waste Management

Volume 131, 15 July 2021, Pages 323-330
Waste Management

Characterization of mineral wool waste chemical composition, organic resin content and fiber dimensions: Aspects for valorization

https://doi.org/10.1016/j.wasman.2021.06.022Get rights and content
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Highlights

  • Chemical composition of 88 mineral wool samples is reported.

  • Glass wool composition is similar to soda-lime silicate glass.

  • Stone wools have composition similar to basalt, but variation is observed.

  • Cr, Ba, Ni, Cu, Zn, and Pb are present in mineral wools, but in low concentrations.

  • Organic resin within mineral wools may cause NH3 emissions during their processing.

Abstract

Despite mineral wool waste is only a small fraction of total construction and demolition waste (CDW) by mass, it requires large transportation and landfilling capacities due to its low bulk density, and its utilization remains low compared to other CDW types. It is essential to understand the physical and chemical properties of this waste fraction in order to utilize it, e.g. as fiber reinforcement in composites or as supplementary cementitious material. Here, we provide a chemical and physical characterization of 15 glass wool and 12 stone wool samples of different ages collected from various locations across Europe. In addition, the chemical compositions of 61 glass and stone wool samples obtained from the literature are presented. Glass wool samples show little variation in their chemical composition, which resembles the composition of typical soda-lime silicate glass. Stone wool presents a composition similar to basaltic glass but with variability between samples in terms of calcium, magnesium, and iron content. Potentially toxic elements, such as Cr, Ba, and Ni, are present in mineral wools, but in low concentrations (<0.2%). Both wool types contain organic resin, which may decompose into smaller molecular fragments and ammonia upon heating or contact with alkaline solution. Mineral wool wastes have relatively similar length and width distributions, despite the age and type of the mineral wool. Overall, both mineral wool waste types have homogenous chemical and physical properties as compared to many other mineral wastes which makes their utilization as a secondary raw material promising.

Keywords

Mineral wool waste
Stone wool
Glass wool
Phenol-urea–formaldehyde resin
Fiber size
Vitreous fibers

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