Dewatering and containment of heavy-metal contaminated sediments with geotextile containers and polymers : developing and validating system performance and design

British Columbia Mine Reclamation Symposium

Dewatering and containment of heavy-metal contaminated sediments with geotextile containers and polymers : developing and validating system performance and design Bossy, K.; Anderson, T.; Kobilnyk, T.

Abstract

The processing and refining operations at a former mine site in Eastern Canada resulted in significant environmental impact, leaving behind high concentrations of harmful materials such as arsenic, cobalt, copper, nickel, and low-level radioactive material in soil, sediment, surface, and groundwater. To reclaim the site, a project was undertaken to develop and validate a hydraulic process to remove, contain, and dewater contaminated sediments efficiently and effectively, while reducing the handling of material during remediation. The project design included dredging, geotextile containment and filtration, polymer conditioning, pH adjustment, and filtrate management. Geotextile containers provide a reliable, cost-effective technology to collect, dewater, and permanently store contaminated sediment on or near the site, which has been successfully used during mine reclamation operations and other environmental remediation projects worldwide. The addition of selected polymers to the dredged slurry can enhance the retention of heavy metals and other contaminants, while also improving the sediment's dewaterability. The combination of polymer and filtration provided by the woven geotextile produces low total suspended solids in the effluent and is ideal as a pretreatment step allowing for filtrate to be managed separately according to its characteristics. The filtrate produced by the geotextile containers is often of sufficient quality for direct discharge to a receiving body. The paper discusses each step of the project development, including bench-scale testing, on-site pilot testing, and the full-scale concept. Performance data is presented on the sediment removal rate, the attained solids from the material, the retention of heavy metal contaminants in the dewatered sediment, and the quality of the filtrate produced by the process. The information collected during this preliminary stage informed the conceptual design of a large-scale project to dredge, dewater, and permanently store a significant volume of contaminated sediments from the site, while returning treated effluent that met discharge requirements for discharge to the environment.

Item Metadata

Title	Dewatering and containment of heavy-metal contaminated sediments with geotextile containers and polymers : developing and validating system performance and design
Creator	Bossy, K.; Anderson, T.; Kobilnyk, T.
Contributor	British Columbia Mine Reclamation Symposium; University of British Columbia. Norman B. Keevil Institute of Mining Engineering
Date Issued	2023-09
Description	The processing and refining operations at a former mine site in Eastern Canada resulted in significant environmental impact, leaving behind high concentrations of harmful materials such as arsenic, cobalt, copper, nickel, and low-level radioactive material in soil, sediment, surface, and groundwater. To reclaim the site, a project was undertaken to develop and validate a hydraulic process to remove, contain, and dewater contaminated sediments efficiently and effectively, while reducing the handling of material during remediation. The project design included dredging, geotextile containment and filtration, polymer conditioning, pH adjustment, and filtrate management. Geotextile containers provide a reliable, cost-effective technology to collect, dewater, and permanently store contaminated sediment on or near the site, which has been successfully used during mine reclamation operations and other environmental remediation projects worldwide. The addition of selected polymers to the dredged slurry can enhance the retention of heavy metals and other contaminants, while also improving the sediment's dewaterability. The combination of polymer and filtration provided by the woven geotextile produces low total suspended solids in the effluent and is ideal as a pretreatment step allowing for filtrate to be managed separately according to its characteristics. The filtrate produced by the geotextile containers is often of sufficient quality for direct discharge to a receiving body. The paper discusses each step of the project development, including bench-scale testing, on-site pilot testing, and the full-scale concept. Performance data is presented on the sediment removal rate, the attained solids from the material, the retention of heavy metal contaminants in the dewatered sediment, and the quality of the filtrate produced by the process. The information collected during this preliminary stage informed the conceptual design of a large-scale project to dredge, dewater, and permanently store a significant volume of contaminated sediments from the site, while returning treated effluent that met discharge requirements for discharge to the environment.
Subject	Mining; sediment; remediation; contamination; geotextiles; dewatering
Genre	Conference Paper
Type	Text
Language	eng
Date Available	2023-10-31
Provider	Vancouver : University of British Columbia Library
Rights	Attribution-NonCommercialNoDerivatives 4.0 International
DOI	10.14288/1.0437479
URI	http://hdl.handle.net/2429/86401
Affiliation	Non UBC
Peer Review Status	Unreviewed
Scholarly Level	Other
Rights URI	http://creativecommons.org/licenses/by-nc-nd/4.0/
Aggregated Source Repository	DSpace

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