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  • CIM
    Recovery of Sulphur Values From Gypsum and Anhydrite

    By J. D. McFarlane, V. Robinson

    "The paper begins with a brief account of the naturarly occurring resources of gypsum and anhydrite and a discussion of their relative value and utility as sources of sulphur. The fundamental chemistr

    Jan 1, 1969

  • IMPC
    Recovery of tantalum parts from used capacitor using steam gasification with mixted molten carbonate

    By Tohru Kamo, Shigeyuki Katano, Hideki Nakagome, Maiko Adachi, Shingo Nakamura, Kaneshi Taniguchi, Zar Zar Hlaing, Takaaki Wajima

    Tantalum capacitor is a small-sized and has large capacity, and is indispensable for electric equipment. The demand increases year by year, and a quite large number of used tantalum capacitors is gene

    Jan 1, 2014

  • TMS
    Recovery of Tellurium from Cadmium Telluride Photovoltaic Module Manufacturing Scrap and other Sources

    By Wenming Wang

    Recycling of retired cadmium telluride (CdTe) photovoltaic (PV) modules has attracted attention due to new European environmental regulations. Recycling tellurium from CdTe PV modules is becoming more

    Jan 1, 2006

  • TMS
    Recovery Of The Chromium (III, VI) From Aqueous Solutions Using Ion Exchange System

    By J. C. Riani

    The release of heavy metals into the environment is increasing among others due to human activities such paint and pigment industries, tanneries, and metal finishing industries. Among metal releases,

    Jan 1, 2006

  • AUSIMM
    Recovery of the northern mining block at Cliffs Nickel Mine

    By M Hopkins, A Mutale, A E. Vidal da Silva

    The Cliffs Nickel Mine extracts a narrow near vertical nickel vein using a mining method of underhand bench stoping with paste backfill. In 2014, at a depth of 400 m below surface, the Northern block

    Mar 15, 2021

  • AUSIMM
    Recovery of Tin from Tinhouse Scruff Metal

    A modified liquation technique was developed for recovering tin from tinhouse scruff metal or hardhead containing about 10 per cent iron and 15 per cent occluded flux, palm oil, and moisture. This was

    Jan 1, 1969

  • CIM
    Recovery of Tin from Used Lead-Free Solder by Electro-Refining in Sulfuric Acid Solutions

    By B. D. Pandey, M. S. Kim, B. S. Kim

    The recovery of Sn from used Pb-free solder (Sn, 3~4 % Ag, < 0.9 % Cu, < 1.2 % Pb) has been investigated by electrorefining in sulfuric acid solutions containing small amount of hydrochloric acid. Thi

    Jan 1, 2014

  • TMS
    Recovery Of Titanium From Blast-Furnace Slag: A Pyro-Modification And Beneficiation Approach

    By Zhenglong Li

    A process has been developed to recover titanium from a blast-furnace slag which contains about 20-25% Ti02 and 12% Fe. In this process. "hot" slag from the blast furnace is directed to a separate fur

    Jan 1, 1996

  • TMS
    Recovery Of Titanium From Waste Solution In TiO2 Production

    By Junji Shibata

    Extraction behavior of Ti(IV) and other metal ions, such as Fe(III), Fe(II), Cu(II), Zn(I1) and Co(I1) from acidic solutions like sulphuric acid and hydrochloric acid was studied in order to recover t

    Jan 1, 1994

  • NIOSH
    Recovery Of Tungsten From Searles Lake Brines By An Ion-Exchange Process

    By P. B. Altringer

    Searles Lake, CA, contains the largest known domestic tungsten resource. The brines in this near-dry lake bed, located in the Mojave Desert 130 mi northeast of Los Angeles, contain an estimated 135 MM

    Jan 1, 1985

  • TMS
    Recovery of Tungsten from Spent V2O5–WO3/TiO2 Catalyst

    By In-Hyeok Choi

    Currently, spent V2O5–WO3/TiO2 catalysts contribute significant amounts of solid waste following increasing levels of global demand. V2O5–WO3/ TiO2 catalysts usually consist of TiO2 anatase as a suppo

  • CIM
    Recovery of U3O8 by Underground Leaching

    By Robert A. MacGregor

    "Following several months of test work, water leaching in mined-out areas at Stanrock commenced on a production basis in February, 1963. A combination of fast high-pres-sure washing and rewashing of s

    Jan 1, 1966

  • IMPC
    Recovery Of Uranium From Alkaline Leach Slurries By Resin-In-Pulp Process

    By T. Sreenivas

    This paper describes results of laboratory studies on recovery of dissolved uranium values from alkaline leach slurries of a medium-grade uranium ore from Gogi (Karnataka, India) using the resin-in-pu

    Sep 1, 2012

  • SME
    Recovery Of Uranium From Copper Waste Dump Leaching Solutions

    By D?Arcy R. George

    A survey of the copper mining industry in Western United States revealed that uranium is almost universally present in the solutions resulting from leaching the waste ore dumps to recover copper. The

    Jan 1, 1967

  • AIME
    Recovery Of Uranium From Lignites (4dc0b129-d1e0-4f2e-8475-55ade6840271)

    By Henry G. Petrow, Edward S. Porter

    MAJOR occurrences of lignite with significant uranium concentrations have been reported in western parts of the Dakotas, especially in Harding County, S.D., and Billings and Slope counties, N.D. Sampl

    Jan 9, 1957

  • TMS
    Recovery Of Uranium Using Continuous Countercurrent Ion Exchange,(CCIX)

    By Joseph C. Milbourne

    Tetra Technologies CCIX? (continuous countercurrent ion exchange) system has been involved in a wide range of uranium concentration, separation and purification applications over the past 40 years. Ur

    Jan 1, 1995

  • SME
    Recovery of Valuable Elements from Chinese Coal Byproducts

    By Yuemin Zhao, Wenxuan Liu, Maoming Fan, Zhanyuan Long

    "Coal is mainly composed of energy-producing elements carbon and hydrogen. In addition to these elements, coal usually contains many other valuable elements, including iron, aluminum, silicon, rare ea

    Jan 3, 2018

  • SME
    Recovery of valuable metals from copper slag "Mining, Metallurgy & Exploration (2020)"

    By XUEWEN WANG, Changda Zhang, Huaguang Wang, Mingyu Wang, Bin Hu

    The copper smelting process produces plenty of copper slag every year, which is a hazardous solid waste, but a secondary resource. In the present study, the extraction of copper, nickel, and cobalt fr

    May 4, 2020

  • SME
    Recovery of Valuable Metals from Iron‑Rich Pyrite Cinder by Chlorination‑Volatilization Method - Mining, Metallurgy & Exploration (2024)

    By Yubo Tu, Lianqi Wei, Tianyi Zhao, Peiwei Han, Zhengchen Li, Shufeng Ye

    The effect of oxygen partial pressure on the volatilization percentages of valuable metals from iron-rich pyrite cinder by chlorination-volatilization method using CaCl2 as chlorinating agent was inve

    Dec 19, 2023

  • TMS
    Recovery of Valuable Metals from Lead Flue Dust by a Intergrated Process

    By Chao Li, Lim Hongxu, Yuyue Wang, Xie Yang

    "A intergrated process of sulfuric acid leaching, sodium chloride leaching, lead chloride crystallization, lead hydroxide synthesis and roasting was carried out for the recovery of lead, cadmium, copp

    Jan 1, 2014