Search Documents

Sort by

  • TMS
    Hydrolysis of Niobium Pentachloride Solutions

    By James A. Sommers

    Hydrolysis of NbC15 is used to recover oxide values for ceramic and metals production. Reaction of NbC15 with water is rapid, exothermic and vigorous, yielding a gelatinous slurry. In contrast, dissol

    Jan 1, 1992

  • SME
    Hydrolytic Precipitation Of Fine Oxide Powders By Supercritical Fluids

    By P. R. Taylor

    A reaction is evaluated by which heated and pressurized water is used to precipitate metal oxides from loaded Kelex 100 complexes. Pure copper oxide (CuO) and pure nickel (Nio) in powder form, and ran

    Jan 1, 1992

  • AUSIMM
    Hydromechanical Processes During In Situ Coal Gasification

    By J Liu

    In situ coal gasification is a method of extracting a high proportion of the energy value from coal without the need for mining. In situ conversion of coal to combustible gases is achieved by drilling

    Jan 1, 2004

  • CIM
    Hydromechanical versus seismic fatigue in progressive failure of deep-seated landslides

    By O. Hungr, V. Gischig, G. Preisig

    Deep-seated landslides are characterized by slow time-dependent movements induced by constant gravitational creep, and periods of acceleration associated with stress changes within the rock and the pr

    Jan 1, 2015

  • CIM
    Hydromet Piloting: What the Mineral Processor can expect

    By Ronald Molnar

    "High demand for metals is driving the exploitation of lower grade and more complex orebodies. These projects are often the initiatives of junior mining companies with limited financial resources. In

    Jan 1, 2006

  • TMS
    Hydrometaliurgical Process For Recycling Of Spent Nickel-Metal Hydride Secondary Battery (Invited)

    By Toshihiro Kuzuya

    A hydro metallurgical process has been developed for the recovery of metal values such as Co, Ni and rare earths from the electrode materials of spent nickel metal-hydride(Ni-MH) secondary battery. Mm

    Jan 1, 2003

  • SME
    Hydrometallurgical Alternatives For Recovery Of Metal Values From Sea Nodules ? Introduction

    By Richard B. Stein

    This paper will present an overview of several hydrometallurgical processes which can be used for sea-nodule metal recovery and some simplified economics. Before going any further, here are some of

    Jan 1, 1982

  • SME
    Hydrometallurgical Conversion Of Stibnite To Antimonous Oxide Via Antimony Trichloride

    By John L. Shafer

    A process for the conversion of stibnite (Sb2Sj) concentrates, crude antimony oxide, or metal to a pure cubic antimonous oxide (senarmontite) has been developed on a laboratory scale. The conversion o

    Jan 1, 1975

  • TMS
    Hydrometallurgical Extraction of Lead in Brine Solution from a TSL Processed Zinc Plant Residue

    By R. Rajiv Srivastava

    Brine leaching of a TSL processed zinc-plant residue (ZPR), containing 83.3% anglesite, has been investigated for lead recovery. A prior treatment of ZPR in acid solution did not show any significant

  • TMS
    Hydrometallurgical Extraction of Rare Earth Elements from Coal

    By Rick Honaker

    Rare earth elements (REEs) contained in coal and associated mineral matter exist in several forms including micro-dispersed minerals, ion adsorption onto clay surfaces, and chemically bound. Tests fou

  • TMS
    Hydrometallurgical Extraction Of Rare Earth Elements From Low Grade Mine Tailings

    By Y. Yang, S. Peelman, J. Sietsma, Z. H. I. Sun

    The rare earth elements (REEs) present in the Kiruna iron ore mine tailings are being considered as a new REE resource for the EU. These tailings, after beneficiation, contain approximately 5000 ppm o

    Jan 1, 2016

  • SME
    Hydrometallurgical Investigation Of A Complex Mineral Mixture

    By D. R. Rice

    Separation of valuable constituents from a complex mineral mixture was examined. Nitric acid leaching produced a solution containing copper, zinc, iron and a large proportion of silver. The residue co

    Jan 1, 1969

  • SME
    Hydrometallurgical Pretreatment Of Lead Concentrates For Electric Smelting And Electrolytic Refining

    By K. Ueda

    Lead concentrates from Kuroko (black ore) mines, which contain Cu 4 ? 7%, Pb 55%, Zn 3 - 7%, As 0.5 - 0.9% are treated by hydrometallurgical process in order to smelt the product by electric furnace s

    Jan 1, 1982

  • CIM
    Hydrometallurgical Process Development for Recovery of Dysprosium from Permanent Magnet Scrap Leach Liquor Using 2-Ethylhexyl Phosphonic Acid Mono-2-Ethylhexyl Ester (Pc 88a) as an Extractant System

    By Kyeong Woo Chung, Ho-Sung Yoon, Jyothi Rajesh Kumar, Chul-Joo Kim, Sung-Don Kim

    The aim of the present study is to investigate the extraction, separation and recovery of the indivisible metals of dysprosium and neodymium from permanent magnets scrap leach liquor solutions with me

    Jan 1, 2014

  • CIM
    Hydrometallurgical Process for Rare Earth Elements Recovery from Spent Ni-Hm Batteries

    By Eduardo A. Pérez, Alejandro R. Alonso, Rosa María Luna-Sánchez, Gretchen T. Lapidus

    Rare earth elements have been widely used in various sectors, from the aerospace and steel industries, to electronic applications, particularly in displays and batteries for portable devices. The high

    Jan 1, 2014

  • TMS
    Hydrometallurgical Process for the Recovery of Lead from a Mixed Lead-Zinc Sulfide Concentrate

    By C. J. Beyke

    The U.S. Bureau of Mines has developed a process for the selective recovery of Pb metal from a mixed Pb-Zn concentrate. The concentrate was leached in recycled H2SiF6 at atmospheric pressure and 95° C

    Jan 1, 1991

  • TMS
    Hydrometallurgical Process Modeling for Design and Analysis Part 11: Leaching Kinetics and Associated Phenomena

    By David G. Dixon

    Although the kinetics of leaching processes are of paramount importance in the design and analysis of nearly all hydrometallurgical flowsheets, these concepts remain poorly understood and, as a result

    Jan 1, 2002

  • TMS
    Hydrometallurgical Process Modeling for Design and Analysis Part I: Mass and Heat Balances

    By David B. Dreisinger

    Mass and heat balance modeling is a powerful tool for the design and analysis of hydrometallurgical process flowsheets. In this first of two papers, we examine the basic fundamentals of mass and heat

    Jan 1, 2002

  • TMS
    Hydrometallurgical Process of Copper Converter Dust at the Saganoseki Smelter & Refinery

    By M. Tomita

    One of the most essential factors for a custom smelter to strengthen its competitive power is to Improve its comparative standing in purchase of concentrates from the world market. It is especially cr

    Jan 1, 1992

  • CIM
    Hydrometallurgical Processes for the Recovery of High Value Metals from Spent Li-Ion Batteries

    By R. Laucournet, E. Billy, M. Joulié

    Today Li-ion batteries are considered as one of the most attractive available energy storage solutions. However in order to overcome environmental, legislative and economic issues, the management of u

    Jan 1, 2014