A Quantitative Approach to Optimize Chemical Treatment of Acid Drainage Using Geochemical Reaction Path Modeling Methods: Climax Mine, Colorado

Society for Mining, Metallurgy & Exploration

Regina N. Tempel Maggy F. Lengke R. Craig Ford Timothy E. Eastep Bryce R. Roming Geoff Clothier

Organization:: Society for Mining, Metallurgy & Exploration
Pages:: 6
File Size:: 302 KB
Publication Date:: Jan 1, 2000

Abstract

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The Climax Mine, near Leadville, Colorado treats acid drainage in a lime neutralization chemical treatment system. Chemical treatment has been successful in reducing the concentration of metals to below surface water discharge effluent limits, but lime usage has not been optimized. A geochemical modeling approach has been developed to increase the efficiency of lime neutralization. The modeling approach incorporates two steps: (1) calibration, and (2) calculation of amount of lime needed to increase pH and remove metals. Results of our work quantify the lime treatment process and improve our ability to predict overall water quality.

Citation

APA: Regina N. Tempel Maggy F. Lengke R. Craig Ford Timothy E. Eastep Bryce R. Roming Geoff Clothier (2000) A Quantitative Approach to Optimize Chemical Treatment of Acid Drainage Using Geochemical Reaction Path Modeling Methods: Climax Mine, Colorado

MLA: Regina N. Tempel Maggy F. Lengke R. Craig Ford Timothy E. Eastep Bryce R. Roming Geoff Clothier A Quantitative Approach to Optimize Chemical Treatment of Acid Drainage Using Geochemical Reaction Path Modeling Methods: Climax Mine, Colorado. Society for Mining, Metallurgy & Exploration, 2000.

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