Assessment of the Huckleberry Mine site for potential passive or semi-passive acid rock drainage treatment options

British Columbia Mine Reclamation Symposium

Assessment of the Huckleberry Mine site for potential passive or semi-passive acid rock drainage treatment options Haakensen, Monique; Friesen, Vanessa; Martz, Rachel; Wong, Marke; Liang, Jenny; Qualtiere, Elaine

Abstract

Passive water treatment is often sought as a component of long-term mine closure scenarios, as it promotes relatively self-sustaining beneficial conditions for impacted water management at low maintenance and operational costs. However, owing to the biogeochemical nature of these technologies, a site-specific phased approach is necessary for successful implementation. Huckleberry Mine was evaluated for the viability of passive water treatment technologies to address potential future acid rock drainage (ARD)-impacted waters containing constituents such as aluminum and copper. Natural wetlands, seepage collection ponds, and ARD-impacted areas were assessed using genetic microbial community profiling, paired with traditional growth-based microbial characterization and quantification. This information was evaluated in the context of water chemistry, treatment objectives, and biogeochemical processes to develop a conceptual treatment train to semi-passively treat water. A phased program was then developed to determine if each step of the treatment train could address its goals individually, or if it would be best implemented to reduce costs associated with an equivalent active water treatment step.

Item Metadata

Title	Assessment of the Huckleberry Mine site for potential passive or semi-passive acid rock drainage treatment options
Creator	Haakensen, Monique; Friesen, Vanessa; Martz, Rachel; Wong, Marke; Liang, Jenny; Qualtiere, Elaine
Contributor	British Columbia Mine Reclamation Symposium; University of British Columbia. Norman B. Keevil Institute of Mining Engineering
Date Issued	2016
Description	Passive water treatment is often sought as a component of long-term mine closure scenarios, as it promotes relatively self-sustaining beneficial conditions for impacted water management at low maintenance and operational costs. However, owing to the biogeochemical nature of these technologies, a site-specific phased approach is necessary for successful implementation. Huckleberry Mine was evaluated for the viability of passive water treatment technologies to address potential future acid rock drainage (ARD)-impacted waters containing constituents such as aluminum and copper. Natural wetlands, seepage collection ponds, and ARD-impacted areas were assessed using genetic microbial community profiling, paired with traditional growth-based microbial characterization and quantification. This information was evaluated in the context of water chemistry, treatment objectives, and biogeochemical processes to develop a conceptual treatment train to semi-passively treat water. A phased program was then developed to determine if each step of the treatment train could address its goals individually, or if it would be best implemented to reduce costs associated with an equivalent active water treatment step.
Subject	passive water treatment; sustainability; biogeochemistry; microbial community profiling; constructed wetland treatment systems; mine closure planning
Genre	Conference Paper
Type	Text
Language	eng
Date Available	2017-08-23
Provider	Vancouver : University of British Columbia Library
Rights	Attribution-NonCommercial-NoDerivatives 4.0 International
DOI	10.14288/1.0354684
URI	http://hdl.handle.net/2429/62818
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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