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Teaching ARD reclamation techniques in high school

British Columbia Mine Reclamation Symposium; University of British Columbia. Norman B. Keevil Institute of Mining Engineering

It is well known that mining is not well perceived by the dominant North America society. The general public typically has a poor understanding of the entire mine cycle and are often influenced by negative news, especially those related to environmental issues. Initiative to rectify this problem should start by showing successful examples of environmentally friendly and socially responsible mining operations. In particular, the mining industry has endeavored to introduce to the general public, and in particular children, the basic ideals of the modern mining industry, which is revolutionizing both its practices and its image through the implementation of best mining practices. A proven technique for raising awareness of mining issues with children is that of hands-on education; hands-on methods are those that involve the student in the problem and attract their interest. The objective of this paper is to illustrate how land reclamation by the mining industry can be taught in the secondary school classroom. A kit was developed to show high school students how the mining industry is reclaiming the land and addressing acid mine drainage problems. An experiment on acid mine drainage, treatment and reclamation was devised to be taught to Earth Science 11 Geological Science (resources and environment) students. The topic to be covered relates to identification of environmental problems related to the development of a natural resource. The students take a sample of pyrite-rich mine waste or crushed pyrite and perform an experiment to see if it produces an acidic solution under certain variable conditions. Either a bicycle pump to add air into the solution or hydrogen peroxide provides the chemical conditions for pyrite oxidation. Bacteria (Thiobacillus ferrooxidans) is added to another vial with pyrite to increase the oxidation reactivity and to compare with the chemical oxidation procedure. After obtaining an acidic pH, the students raise the solution's pH to a neutral condition using lime. A flocculent is then added to precipitate the metal ions from solution and to create metal-hydroxide sludge; this also aids in the subsequent dewatering stage. The sludge is then used to grow marigolds when mixed with peat moss. It has been found that the marigolds grow easily in the sludge/peat moss soil and in some cases have performed better than the control potting soil. The various phases of the experiment development including student responses are documented in this paper.

Conference Paper

application/pdf

2009-06-18

Attribution-NonCommercial-NoDerivatives 4.0 International

http://hdl.handle.net/2429/9435

Unreviewed

British Columbia Technical and Research Committee on Reclamation

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