Remediation methods of heavy metal contaminated soils from environmental and geotechnical standpoints

Sci Total Environ. 2023 Apr 1:867:161468. doi: 10.1016/j.scitotenv.2023.161468. Epub 2023 Jan 7.

Abstract

Heavy metal contaminated soil (HMCS) threatens world health and sustainable growth, owing to which numerous remediation methods have been devised. Meanwhile, environmental sustainability and geotechnical serviceability of remediated HMCS are important considerations for reusing such soils and achieving sustainable development goals; therefore, these considerations are critically reviewed in this article. For this purpose, different onsite and offsite remediation methods are evaluated from environmental and geotechnical standpoints. It was found that each remediation method has its own merits and limitations in terms of environmental sustainability and geotechnical serviceability; generally, sustainable green remediation (SGR) and cementation are regarded as effective solutions for the problems related to the former and latter, respectively. Overall, the impact of remediation techniques on the environment and geotechnical serviceability is a developing area of study that calls for increased efforts to improve the serviceability, sustainability, reusability and environmental friendliness of the remediated HMCS.

Keywords: Environmental sustainability; Geotechnical serviceability; Hazardous material; Heavy metal contaminated soils; Remediation methods.

Publication types

  • Review