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  • AUSIMM
    Improving Fine Sulfide Mineral Recovery ù Plant Evaluation of a New Technology

    By 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

  • CIM
    Improving Fine Sulphide Mineral Recovery at the Red Dog Operation

    By 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

  • SME
    Improving Fine-coal Washability Procedures

    By Peter J. Suardini

    Over the last few years, researcher have been working on improving procedures for fine-coal (minus 150 microns) washability analyses. The effort was stimulated by past difficulties in obtaining accura

    Jan 1, 1995

  • AUSIMM
    Improving Fines Recovery by Grinding Finer

    By D Curry, M F. Young

    æConventional wisdomÆ believes that fine particles have low flotation recoveries. Plant size û recovery graphs often have the classic æhillÆ shape û high recovery in the mid sizes and low recovery at

    Jan 1, 2004

  • SME
    Improving Fire Detection In Underground Coal Mines

    By 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

  • CIM
    Improving Flexibility: Recent Developments at the Horne Smelter

    By 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

  • CIM
    Improving Flotation Circuit Performance with a Large Mechanical Flotation Cell

    By 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

  • AUSIMM
    Improving flotation hydrodynamics to maximise nickel recovery from tailings

    By 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

  • AUSIMM
    Improving Flotation Performance in the Good, the Bad and the Ugly Economic Times û The Century Story

    By D Obeng, D Alexander

    Over the past five years, commodity prices have been high and the focus of many plants has been æthe more metal the better, at whatever costÆ. In the recent economic crisis, the focus has shifted more

    Jan 1, 2009

  • AUSIMM
    Improving Flotation Plant Performance at Cadia by Controlling and Optimising the Rate of Froth Recovery Using Outokumpu FrothMaster<sup>TM</sup>

    By P Bourke, S Ronkainen

    Since the early days of flotation, process technicians have known that the speed at which the froth is recovered over the lip of the cell has a very direct and consistent influence on the grade and re

    Jan 1, 2000

  • CIM
    Improving Flotation Plant Performance at Cadia by Controlling and Optimizing the Rate of Froth Recovery using Outokumpu Froth master™

    By Peter Bourke, Marc van Olst, Seppo Ronkainen, Natalie Brown

    "Since the early days of flotation, process technicians have known that the speed at which the froth is recovered over the lip of the cell has a very direct and consistent influence on the grade and r

    Jan 1, 2001

  • CIM
    Improving Flotation Recovery of Oxide Copper Minerals

    By T. Bhambhani, O. Yavuzkan, D. R. Nagaraj

    "Cu ore bodies commonly contain oxide Cu at the surface, with sulfide Cu content increasing with depth. The recovery of oxide Cu minerals by flotation is a longstanding challenge in the minerals indus

    Jan 1, 2016

  • CIM
    Improving Flotation Separation Efficiency of Quartz-Coal Mixtures by Using Polyethylene Oxide

    By J. -C. Sztuke, M. Cao

    ABSTRACT Wash water and polyethylene oxide (PEO) were used in the flotation of quartz and coal. Wash water decreased entrainment of –15 µm quartz. The optimum superficial wash water rate was 0.05 cm/s

    Jan 1, 2014

  • CIM
    Improving Fluorine-Bearing Minerals Rejection in the Flotation of a Brazilian Sulphide Copper Ore

    By Keila Gonçalves, Aline Tavares, Danielly Couto

    "The sulphide copper deposits from the Carajás area (North region of Brazil) were generated by the percolation of hydrothermal fluids in volcanic and granitic rock and are denominated as IOCG deposits

    Jan 1, 2011

  • ISEE
    Improving Fragmentation and Ore Displacement Control at Homestake McLaughlin Mine Lower Lake, California

    By Roger Lucas, Dale Nies

    The McLaughlin Mine is an open-pit disseminated gold mining operation. Homestake Mining Company's approach to solving some of the blasting problems inherent to this type of deposit provide an interest

    Jan 1, 1990

  • ISEE
    Improving Fragmentation During Ring-Hole Blasting in Coal in Blasting Gallery Panels

    By Sri Sawmliana, P. Pal Roy

    Blasting Gallery (BG) method was introduced in India for higher production and low cost of excavation to substitute conventional hand section and stowing methods for thick coal seam. The Singareni Col

    Jan 1, 2003

  • SME
    Improving Gas Management and Ventilation Performance at Longwall Mines with Potentially High Gas Emission Rates - SME Annual Meeting 2025

    By Steven J. Schatzel, James Addis, K. Vaibhav Raj, Berk Tulu

    The National Institute for Occupational Safety and Health (NIOSH) is conducting research to enhance methane control and mine ventilation practices at coal mines, as a method to mitigate hazardous work

    Feb 1, 2025

  • ISEE
    Improving Geologic Knowledge with IOT Sensors on Blasthole Drills

    By Steven Putt

    Seismic While Drilling (SWD) is a newly developed technology in the mining industry. Improving upon Measurement While Drilling (MWD) systems, SWD measures mechanical properties of the rock at incremen

  • ISEE
    Improving Geologic Knowledge with IOT Sensors on Blasthole Drills

    By Steven Putt

    The paper presents new results from Datacloud during recent Seismic While Drilling trials in iron ore, metallurgical coal, and hard rock mines around the world. The measurements are compared with wire

    Feb 1, 2020

  • AUSIMM
    Improving Geological and Metallurgical Understanding of Plutonic Gold Mine, Western Australia, using Three-Dimensional Visualisation of Portable X-Ray Fluorescence Data

    By M F. Gazley

    The amphibolite-facies metabasaltic rocks of the Mine Mafic Package at Plutonic Gold Mine, Marymia Inlier, Western Australia, contain an estimated total endowment of 12.2 Moz of Au, which includes 4.7

    Aug 22, 2011