Remediation of metal polluted hotspot areas through enhanced soil washing - Evaluation of leaching methods
Journal article, 2013

Soil washing offers a permanent remediation alternative for metal polluted sites. In addition, the washed out metals can be recovered from the leachate and re-introduced into the social material cycle instead of landfilled. In this paper, soil, bark and bark-ash washing was tested on four different metal polluted soil and bark samples from hotspots at former industrial sites. Six different leaching agents; HCl, NR4Cl, lactic acid, EDDS and two acidic process waters from solid waste incineration, were tested, discussed and evaluated. For the soil washing processes, the final pH in the leachate strongly influences the metal leachability. The results show that a pH < 2 is needed to achieve a high leaching yield, while <50 w% of most metals were leached when the pH was higher than 2 or below 10. The acidic process waste waters were generally the most efficient at leaching metals from all the samples studied, and as much as 90 -100 w% of the Cu was released from some samples. Initial experiments show that from one of these un-purified leachates, Cu metal (>99% purity) could be recovered. After a single leaching step, the metal contents of the soil residues still exceed the maximum limits according to the Swedish guidelines. An additional washing step is needed to reduce the contents of easy soluble metal compounds in the soil residues. The overall results from this study show that soil and bark-ash washing followed by metal recovery is a promising on-site permanent alternative to remediate metal polluted soils and to utilize non-used metal resources.

Author

Karin Karlfeldt Fedje

Chalmers, Civil and Environmental Engineering, Water Environment Technology

FRIST competence centre

L. Yillin

Chalmers, Civil and Environmental Engineering, Water Environment Technology

Chengdu University of Technology

Ann-Margret Hvitt Strömvall

FRIST competence centre

Chalmers, Civil and Environmental Engineering, Water Environment Technology

Journal of Environmental Management

0301-4797 (ISSN) 1095-8630 (eISSN)

Vol. 128 489-496

Driving Forces

Sustainable development

Areas of Advance

Building Futures (2010-2018)

Subject Categories

Civil Engineering

DOI

10.1016/j.jenvman.2013.05.056

More information

Latest update

1/18/2019