Decommissioning open pits with ecological engineering

Ecological Engineering, a biotechnological approach to the decommissioning of base metal mining wastes, is being tested on two open pits (Gloryholes) in Newfoundland, Canada. Pit #1 has a volume of 208,000 m3 (pH ranges between 5.5 and 7). Pit #2, with a volume of 66,200 m3, has an average pH of 3.5...

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Bibliographic Details
Main Author: Kalin, Margaret
Other Authors: British Columbia Mine Reclamation Symposium, University of British Columbia. Norman B. Keevil Institute of Mining Engineering
Format: Conference Object
Language:English
Published: 1992
Subjects:
Canada
Newfoundland
Online Access:http://hdl.handle.net/2429/17537
Description
Summary:Ecological Engineering, a biotechnological approach to the decommissioning of base metal mining wastes, is being tested on two open pits (Gloryholes) in Newfoundland, Canada. Pit #1 has a volume of 208,000 m3 (pH ranges between 5.5 and 7). Pit #2, with a volume of 66,200 m3, has an average pH of 3.5. Organic substrates are used to form sediment and provide carbon and nutrients for microbial ecosystems which reduce sulphate and generate alkalinity. Enclosures (4 m diameter and approx. 3.5 m depth) were placed in both pits to test the suitability of different organic amendments (peat and sawdust) as carbon and nutrient sources. Microbial alkalinitygeneration was evident 95 days after placement of the amendment on July 4, 1989. Zinc concentrations in the enclosures in Pit #2, dropped from an average of 35 mg/L to about 2 mg/L or less by day 480, and by day 300 in Pit #1. A scaled-up experiment has been under way since August 25,1990, where 390 m3 are treated in Pit #2 and 750 m3 in Pit #1. Research continues on the determination of factors which can limit the ARUM process. Non UBC Unreviewed Other

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