Environmental Acceptability of Geotechnical Composites from Recycled Materials: Comparative Study of Laboratory and Field Investigations

Int J Environ Res Public Health. 2023 Jan 21;20(3):2014. doi: 10.3390/ijerph20032014.

Abstract

The environmental properties of three geotechnical composites made by recycling wastes were investigated on a laboratory scale and in the field with the use of lysimeters designated for the revitalization of degraded mining sites. Composites were prepared by combining the mine waste with paper-mill sludge and foundry sand (Composite 1), with digestate from municipal waste and paper ash (Composite 2), and with coal ash, foundry slag and waste incineration bottom ash (Composite 3). The results of laboratory leaching tests proved that Composites 1 and 3 are environmentally acceptable, according to the legislative limits, as the potentially hazardous substances were immobilized, while in Composite 2, the legislative limits were exceeded. In the field lysimeters, the lowest rate of leaching was determined for optimally compacted Composites 1 and 3, while for Composite 2 the leaching of Cu was high. This study proved that optimally installed Composites 1 and 3 are environmentally acceptable for use in construction as an alternative to virgin materials, for the revitalization of degraded mining sites or, along with Composite 2, for closure operations with landfills. In this way, locally available waste streams are valorised and channelized into a beneficial and sustainable recycling practice.

Keywords: immobilization; lysimeter; potentially hazardous substances; recycling; revitalisation; waste.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Coal Ash*
  • Incineration*
  • Recycling / methods
  • Sewage
  • Solid Waste / analysis
  • Waste Disposal Facilities

Substances

  • Coal Ash
  • Sewage
  • Solid Waste

Grants and funding

This research was funded by the Slovenian Research Agency for financial support for programme group P2-0273 and P1-0143, projects L1-9190,L7-3185 and J1-4413, Junior Researcher Grants for Marija Đurić (52082), and to European Union’s Horizon 2020 programme under grant agreement No. 776751.