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  • SME
    Recovery Of Iron From Pyrite Cinder By The MTU-Pelletech Process

    By M. Adnan Göksel

    Pyrite cinder is generated by roasting pyrite for sulfur dioxide production. It contains up to 62% iron, but also may contain other hazardous or toxic materials such as Zn, Pb, As, T1, Cd, Cu, Sn and

    Jan 1, 1984

  • IMPC
    Recovery of Iron from Refractory Iron Ore Using Suspension Magnetization Roasting Followed By Magnetic Separation

    By Y. S. Sun, P. Gao

    "In this investigation, a pilot-scale suspension magnetization roasting reactor was introduced and used to enhance magnetic properties of an iron ore. Consequently, the effects of roasting temperature

    Jan 1, 2018

  • IMPC
    Recovery of Iron from Tailings with Fluidized Magnetization Roasting Followed By Magnetic Sepatation

    By Yuexin Han, Jie Liu, Shuai Yuan, Yanjun Li

    "In order to improve recovery efficiency of iron minerals from iron ore tailings and to reduce its connected environmental pollution, this article investigated the reducing roasting of iron ore tailin

    Jan 1, 2018

  • CIM
    Recovery of Iron from Waste Slag of Pyrite Processing Using Reduction-Roasting Magnetic Separation Method

    By A. McLean, Q. R. Yang, Y. D. Yang, G. F. Zhang, P. Wu

    A considerable amount of waste slag from the pyrite roasting process is discharged every year. Recovery of iron from the waste slag is of great interest for comprehensive use of mineral resource, redu

    Jan 1, 2011

  • AUSIMM
    Recovery of Iron Ore Fines and Ultrafines from Tailings by Using Wet High-intensity Magnetic Separation – JONES WHIMS

    By M Gerards, M Steinberg, T Graham

    The quality and quantity of Australia’s secondary deposits, which include tailings streams and tailings dams, are higher than most countries’ primary deposits. In addition, these secondary deposits ha

    Jul 13, 2015

  • SME
    Recovery of Iron Values from Discarded Iron Ore Slimes Mining, Metallurgy and Exploration

    By Nikhil Dhawan, Veeranjaneyulu Rayapudi, Singh Rahulkumar Sunil

    The ever-increasing demand for steel and the subsequent depletion of high-grade ores requires the massive utilization of low-grade iron ores. In the present study, an iron ore slime sample containing

  • SME
    Recovery of Iron Values from Discarded Iron Ore Slimes Mining, Metallurgy and Exploration (94b04126-17ba-4f24-986e-8db48c1a0ace)

    By Nikhil Dhawan, Veeranjaneyulu Rayapudi, Singh Rahulkumar Sunil

    The ever-increasing demand for steel and the subsequent depletion of high-grade ores requires the massive utilization of low-grade iron ores. In the present study, an iron ore slime sample containing

  • SME
    Recovery Of Lead From Lead Blast Furnace Slags

    By J. L. Watson

    n the U.S., lead has been produced via blast furnace processing for over a century, and the slags from that pyro-metallurgical process have been accumulating on industrial sites over that extended per

    Jan 1, 1995

  • TMS
    Recovery of Lead from Process Solutions

    By M. K. Mohan

    Lead recovery from process solutions contributes not only to the conservation of resources but also clean environment. Zeolites are natural aluminosilicates, which finds applications as catalysts and

    Jan 1, 1999

  • TMS
    Recovery of Lead, Silver and Gold From Zinc Process Residues by a Sulfidization-Flotation Method

    By J. Rastas

    The recovery of lead, silver and gold from existing and potential zinc process residues using a sulfidization-flotation method was investigated on a laboratory scale. The following residues were teste

    Jan 1, 1990

  • SAIMM
    Recovery of lithium from spodumene by chlorination roasting, P.F.A. Braga, S.C.A. França, C.P. Pinto, and G.D. Rosales

    By G. D. Rosales, P. F. A. Braga, S. C. A. França, C. P. Pinto

    The growing market demand for lithium is mainly due to its use in the manufacture of batteries for electric or hybrid vehicles and portable equipment (smartphones, tablets, power tools, notebooks, etc

    Jan 1, 2020

  • TMS
    Recovery of Lithium from the Great Salt Lake Brine

    By Rajashekhar Marthi

    Lithium is a key component for future electric vehicle batteries and energy storage. The future availability of lithium to meet the growing demands remains in question. Around 60% of lithium resources

  • CIM
    Recovery of Low-Grade Waste Heat from Smelter Process Water Streams Using Heat Pumps

    By G. M. Ross, I. M. Ross, J. A. Scott

    "The otherwise waste heat in many water streams in the mining industry can be used to provide space heating of adjacent infrastructure including laboratories, workshops, and offices. This can be achie

    Jan 1, 2016

  • TMS
    Recovery of Magnesium from Waste Effluent in Nickel Laterite Hydrometallurgy Process

    By Kuiting Wang, Jinshan Liu, Ninglei Sun, Aiguo Dong, Yeda Lu

    "Eliminating the environmental threat caused by waste effluent containing magnesium sulfate derived from the process of nickel laterite sulfuric acid leaching and subsequent nickel precipitation is al

    Jan 1, 2012

  • CIM
    Recovery of Magnetite from Spiral Tailings at Labrador City

    By T. C. Murphy, W. Taciuk

    In 1966, the Iron Ore Company of Canada commissioned a wet magnetic scavanging plant for the recovery of fine magnetite values p.resent in spiral tailings discharged from a spiral gravity separation p

    Jan 1, 1972

  • SME
    Recovery Of Manganese From Solution Obtained By Bioleaching Three Kids Ore

    By S. N. McIntosh

    Column bioleaching was evaluated by the U.S. Bureau of Mines as a means of recovering manganese from a low-grade ore from the Three Kids deposit in Southern Nevada. Manganese was solubilized from the

    Jan 1, 1993

  • TMS
    Recovery Of Mercury And Lead From Wastewater By Sulfide Precipitation- Flotation

    By Ting Liu, Qian Li, Peng Deng

    The wastewater containing Hg2+ and Pb2+ does great harm to the environment and human bodies. Traditional wastewater treatment cannot fundamentally put a stop to heavy metals pollution for producing se

    Jan 1, 2015

  • SME
    Recovery Of Mercury From Spent Silver Oxide Button Cells

    By S. Aktas

    The present work describes an investigation of a hydrometallurgical process for the recovery of mercury from spent silver oxide button cells. The cell paste was leached in nitric acid to solubilize si

    Jan 1, 2011

  • SME
    Recovery Of Mercury From Spent Silver Oxide Button Cells (e9a6e483-a758-4188-a44f-0e705cf6d0aa)

    By S. Aktas

    The present work describes an investigation of a hydrometallurgical process for the recovery of mercury from spent silver oxide button cells. The cell paste was leached in nitric acid to solubilize si

    Nov 1, 2011

  • SME
    Recovery of Metallic Values from Feldspar by Mechanical and Thermal Pretreatment Followed by Acid Leaching

    By Nikhil Dhawan, Shrey Agrawal

    Feldspar, a low-alumina, and abundantly available aluminosilicate source, is explored in this study to extract aluminum and potassium values. The sample comprises lamellar layers of microcline and alb

    May 18, 2022