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  • IMPC
    Gangue Drainage in Flotation Froths (a6554aa3-9192-4c77-aeca-8b1daa9b95c1)

    By N. Ahmed

    This paper is concerned with the drainage behaviour of gangue mineral in the froth phase. Experiments were carried out in a continuous laboratory flotation cell in which froth depth and bubble size co

    Jan 1, 2003

  • ABM
    Ganho De Produtividade E Geração De Energia Em Uma Parada De Gasometro De Gás De Coqueria Para Manutenção

    By Marcelo Marchesi Martinelli, Caio Henrique Vidigal

    Gasômetros são equipamentos de grande valia para aumento da eficiência energética e ambiental de empresas siderúrgicas integradas, sendo estes equipamentos responsáveis pelo controle da pressão do gás

    Aug 1, 2019

  • SME
    Garnet

    By Gordon T. Austin

    Garnet is the general name for a family of complex silicate minerals having similar physical properties and crystallizing in the isometric (cubic) system. All garnets have the same general chemical fo

    Jan 1, 1994

  • SME
    Garnet - "Abrasive And Gems"

    By John Oskam

    In 1873 Barton tines Corporation mining Garnets for Abrasives. From providing bulk Garnet Concentrate the technology has advanced to the sizing and classification of micron sized particles utilizing a

    Jan 1, 1980

  • AIME
    Gas Absorption And Oxidation Of Non-Ferrous Metals

    By B. Woyski

    MANY writers, in discussing defects caused by oxidation and gassing of bronzes and red brasses advocate substantially the same cure for both. But from its nature, oxidation cannot take place if there

    Jan 5, 1922

  • AUSIMM
    Gas Analysis - Linking the Laboratory with Reality

    By D Cliff

    Despite advances in technology, the Australian underground coal mining industry continues to have incidents involving spontaneous combustion. Managing these incidents relies heavily on understanding t

    Jul 1, 2013

  • ISEE
    Gas and Dust Explosion Research at the UKERT Lab

    By Jaco van den Berg, Dr. Todor Petrov, Dr. Josh Calnan, Dr. Jhon Silva

    This paper shows and reviews the similitudes and differences in explosions generated by high explosives and gas explosions, the reasons why gas explosions are difficult to replicate using high explosi

    Feb 1, 2020

  • AUSIMM
    Gas and the Mining Cycle

    Natural gas from the south west Queensland gas fields is now available in north west Queensland to fuel the development of many Carpentaria Mineral Province projects. Like these projects, the south we

    Jan 1, 1998

  • AIME
    Gas as a Factor in the Production of Oil

    By K. C. Sclater

    GAS as a factor in the efficiency of oil production, might be a better title for this paper as it deals in general with the significance of the gas-oil ratio as an index of the efficiency of oil produ

    Jan 1, 1926

  • ISEE
    Gas bubble sensitisation of a non-ideal explosive using different gases as hot spots

    By Italo Onederra, Miguel Araos

    Most of the current explosives for mining blasting activities rely on voids to become sensitive to initiation, then detonating and finally, sustaining that detonation. The use of voids is known as hot

    Jan 26, 2026

  • IMPC
    Gas Bubbling In Copper Electrowinning from Cuprous Chloride Solutions

    By C. A. C. Sequeira, G. N. Anastassakis

    Electrochemical processes occur on nano-, micro- and macro- scale in numerous applications such as fuel cells, batteries, hydrogen production, mineral extraction, water treatment, electrotherapy, sens

    Jan 1, 2018

  • AIME
    Gas Caps, Their Determination and Significance

    By P. P. Gregory

    NATURAL petroleum gas occurring in the oil-bearing reservoirs is found to exist either as free gas associated with the oil and/or in solution in the oil. In some virgin fields practically no free gas

    Jan 1, 1938

  • SME
    Gas Composition Effects On Microbial Coal Desulfurization With A Thermophilic Bacterium: Sulfolobus Acidocaldarius ? Summary

    By P. Bartel

    Coal cleaning can be effected by the bacterium Sulfolobus acidocaldarius, which in oxidizing sulfur and dissolving mineral matter requires carbon dioxide and oxygen; carbon dioxide as a carbon source

    Jan 1, 1986

  • SME
    Gas Content Of Auger-And Highwall-Mined Coal

    By J. P. Ulery

    As a result of several recent methane/dust ignitions in surface auger and highwall mines, the U.S. Bureau of Mines investigated the occurrence of methane gas at these operations. Three mine sites were

    Jan 1, 1994

  • CIM
    Gas diffusion electrodes with Nafion-ZrP electrolyte for PEMFC operation at 80 to 120°C

    By Z. Xie

    Gas diffusion electrodes (GDEs) for high temperature polymer electrolyte fuel cells (PEFCs) have been prepared using ZrP-modified Nafion ionomer. The performances of these GDEs as cathodes and anodes

    Jan 1, 2005

  • CIM
    Gas Diffusion Rules Through Coal Particles of Different Sizes

    By Baisheng Nie

    The process of gas diffusion through coal particles and the mathematical physical model under the third kind boundary condition was determined to obtain the rules of gas diffusion through coal particl

    Aug 1, 2013

  • IMPC
    Gas dispersion characterization of a laboratory mechanical flotation cell

    By Cesar Gomez, Jaime Álvarez, Lisette Wen

    Laboratory mechanical flotation cells are extensively used in mineral processing for running batch flotation tests with a variety of purposes, for example assessing feed characteristics, determining f

    Jan 1, 2014

  • CIM
    Gas Dispersion Characterization Of Tankcell®-300 at Chuquicamata Concentrator

    By Finch. J. A., C. Perez, J. M. Ortiz, G. Cortes, A. B. Yañiez, F. Coddou, P. Morales, H. Elgueta

    A campaign to perform characterization tests in a TankCell®-300 flotation cell installed at Chuquicamata Codelco's concentrator was conducted. The campaign included integrated gas dispersion meas

    Jan 1, 2009

  • CIM
    Gas Dispersion Management In A Copper I Molybdenum Separation Circuit

    The effect of superficial gas rate distribution (Jg profile) on down-the-bank metallurgical response was tested in the rougher-scavenger bank (eight 10-m3 tank cells, 4 roughers and 4 scavengers) at H

    Jan 1, 2007

  • IMPC
    Gas dispersion measurements in three Outotec flotation cells: TankCell 1, e300 and e500

    By Alejandro Yañez, Martta Nousiainen, Rodrigo Grau

    "Gas dispersion plays a fundamental role in froth flotation. Gas dispersion in flotation is quantified by using four properties: gas velocity, bubble size, gas hold-up and bubble surface area flux. Ga

    Jan 1, 2014