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Improving Empire?s Grinding Circuit Performance Using Six Sigma - Preprint 09-059By H. Walqui
The Empire concentrator was built in four stages, with the latest stage accounting for 50% of the overall plant capacity. Over the past 5 years, the average throughput of the three grinding lines has
Jan 1, 2009
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Improving Energy Efficiency Across Mineral Processing and Smelting Operations - A New ApproachBy B L. Coulter, E Wightman, A S. Burrows
With their commitment to sustainable development in an increasingly carbon-constrained world, many resources companies are focused on reducing the energy required to create their final products. In pa
Jan 1, 2009
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Improving Energy Efficiency in a Modern Aluminum Casting OperationBy Mark Osborne, Ray D. Peterson, C. Edward Eckert
"The theoretical melting energy requirement for a typical hypoeutectic aluminum-silicon alloy is approximately 520 BTU/lb. It has been demonstrated, however, that even a state of the art secondary pro
Jan 1, 2009
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Improving Energy Efficiency in Barrick Grinding CircuitsBy Lloyd Buckingham
Barrick Gold Corporation (Barrick) has undertaken innovative methods of evaluating and improving the performance of grinding mills in several of its operations around the world. The results have been
Jan 1, 2012
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Improving Energy Efficiency in Copper Heap Leaching with the use of BindersBy K. A. Lewandowski
Leach heaps are plagued with problems due to fine material migrating downwards, clogging the spaces between the coarser ore particles, resulting in decreased metal recovery rates. The use of a binder
Jan 1, 2008
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Improving Energy Efficiency in Direct Method for Continuous Casting of Lead SheetsBy Konstantinos Salonitis, Joanna Mielnicka, Mark Jolly, Arun Prabhakar
Lead sheets are widely used for roofing applications, radiation protection and sound proofing. Most of the sheets are either produced by rolling cast slabs of lead sheets or via the direct method (DM)
Mar 1, 2018
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Improving Energy Management in Deep‑Level Mines by Integrating Advanced M&V with Operational Changes - Mining, Metallurgy & Exploration (2024)By J. Pascoe, J. H. van Laar, J. H. Marais, F. J. L. Matthee
Advanced measurement and verification (M&V) is a process where the impact of an energy initiative is determined in real time. Data prediction models can be used to predict and compare energy consumpti
Dec 13, 2023
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Improving Energy/Water Specific Consumption Strategies in Industrial Complexes: Enterprise Real Time Data Integration and CollaborationBy Osvaldo A. Bascur, Curt Heftier
The lack of integrated information including the Energy/Utility Suppliers with sufficient detail for analysis causes inefficient operation in metallurgical complexes including the Energy/Utility Suppl
Jan 1, 2011
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Improving estimation of the accuracy of the personal dust monitor (PDM) - SME Transactions 2011By S. J. Page
The personal dust monitor (PDM) is a combined tapered element oscillating microbalance (TEOM) respirable dust monitor and cap lamp, configured to have dimensions and weight similar to those of a lead-
Jan 1, 2011
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Improving Excavation Efficiency at the St Helena Tunnel Using Best Practice Drill and Blast TechniquesBy D Miller, M Dowling, R Domotor
"This paper is focused on blasting activities undertaken as part of the Pacific Highway Upgrade – Tintenbar to Ewingsdale – project (T2E). This is a ‘priority 1’ Pacific Highway road construction proj
Sep 17, 2014
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Improving Financial Returns From Mining Through Geostatistical Simulation And The Optimized Advance Drilling Grid At El Tesoro Copper Mine ? SynopsisBy J. M. Ortiz
Grade control and short-term planning are usually based on the samples obtained from blastholes. These samples may carry a large sampling and sample preparation error. At El Tesoro copper mine in nort
Jan 1, 2012
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Improving Fine Lead and Silver Flotation Recovery at BHP-Billiton’s Cannington MineBy Glenn Clarke, Ben Holloway, Barry Lumsden
"BHP-Billiton’s Cannington mine in Northwest Queensland produces a silver-rich lead concentrate and a zinc concentrate. The plant has the capacity to treat 3.1 mta and for the year to June 2006 mean f
Jan 1, 2008
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Improving Fine Particle Gravity Recovery through Equipment Behavior ModificationBy Claude Deveau
"Studies on the performance of Falcon batch type concentrators treating ultrafine tantalum at Tanco have revealed that very fine heavy minerals are concentrated within certain areas of the concentrate
Jan 1, 2006
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Improving Fine Refuse Reclamation Potential By Managed Slurry DepositionBy B. A. Filas
Stabilizing fine coal refuse ponds for reclamation at Monterey Coal Company's No. 1 Mine has been difficult. Entrained water in the stored refuse causes liquefaction as reclamation caps are place
Jan 1, 1993
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Improving Fine Sulfide Mineral Recovery ù Plant Evaluation of a New TechnologyBy K Ellis, B Lumsden
A full-scale statistically-based on/off plant trial of a new flotation conditioning technology designed to improve fine mineral recovery was undertaken to determine whether the recovery of selected fi
Jan 1, 2005
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Improving Fine Sulphide Mineral Recovery at the Red Dog OperationBy J. Oliver, B. Wilson, 10
"Red Dog is one of the world’s largest zinc producing mines and a significant producer of lead and silver. While some of the operational challenges relate to the mine’s location in a remote part of Al
Jan 1, 2016
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Improving Fire Detection In Underground Coal MinesBy Charles D. Litton
Introduction The successful performance of a mine-wide fire detection system depends upon its ability to detect the presence of a fire rapidly and reliably. It should be sufficiently rapid so that
Jan 1, 1986
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Improving Flexibility: Recent Developments at the Horne SmelterBy H. Perez, A. Lavoie, V. Prévost, P. Létourneau, P. Lind
The Home smelter is a custom copper smelter located in Rouyn-Noranda, Quebec. In 2005, the smelter produced 145,000 t of copper containing 807,000 oz of gold, 20,388,000 oz of silver in addition to 51
Jan 1, 2007
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Improving Flotation Circuit Performance with a Large Mechanical Flotation CellBy R. Grau
"After commissioning and start-up of the first 500m3 TankCell® flotation cell in 2014, the over 300m3 mechanical flotation cells have earned their place in large-scale flotation operations. These 500
Jan 1, 2019
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Improving flotation hydrodynamics to maximise nickel recovery from tailingsBy M Yvon, S Parkes, K P. Galvin, P Wang
Mineral liberation is critical to maximise the grade and recovery of nickel, however this objective is challenged considerably by the poor flotation kinetics, especially that of ultrafine particles (K
Aug 24, 2022