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  • TMS
    Carbonization Of Coals Mixed Iron Ore Fines And Gasification Of Resulting Iron Coke With Co₂: Transformation Of Iron Minerals And Coke Properties

    By Manjie Li, Mingrui Yang, Haijun Peng, Shuxing Qiu, Wei Liu, Shengfu Zhang

    It is important to produce and utilize highly reactive coke in order to reduce the energy consumption and CO2 emissions through improving shaft efficiency in blast furnace. The present study aimed to

    Jan 1, 2015

  • NIOSH
    Carbonizing Properties - Eastern Kentucky Coals From Elkhorn No. 1, Elkhorn No. 2, Leatherwood, And Harlan Beds ? Introduction And Summary

    By J. D. Davis

    THIS report gives results of an investigation of the carbonizing properties of the following eastern Kentucky coals: Elkhorn No. I bed, No. 28 mine, Wayland, Floyd County; Elkhorn No. 2 bed, Turner No

    Jan 1, 1952

  • NIOSH
    Carbonizing Properties And Petrographic Composition Of No. 2-Bed Coal From Bartoy Mine And No. S-Bed Coal From Wilkeson-Miller Mine, Wilkeson, Pierce County, Wash. ? Introduction And Summary

    By J. D. Davis

    The carbonizing properties of No. 2-bed coal from the Bartoy mine and No. 5- or Miller-bed coal from the Wilkeson-Miller mine, both at Wilkeson, Pierce County, Wash., were determined by the Bureau of

    Jan 1, 1942

  • NIOSH
    Carbonizing Properties Of West Virginia Coals And Blends Of Coals From The Alma, Cedar Grove, Dorothy Powellton A, Eagle, Pocahontas And Beckley Beds ? Introduction

    By A. C. Fieldner

    In 1927 the Carbonization Committee of the American Gas Association proposed cooperation with the Bureau of Mines in the development of suitable methods for determining the carbonizing properties of A

    Jan 1, 1938

  • NIOSH
    Carbonizing Properties: British Columbia, Matanuska Valley (Alaska), And Washington Coals And Blends Of Six Of Them With Lower Sunnyside (Utah) Coals ? Introduction

    By J. D. Davis

    THIS-report gives results of in investigation of the carbonizing properties of 18 coals, including 2 from Alaska, 12 from British Columbia, 3 from Washington, and 1 from Utah. Each coal was carbonized

    Jan 1, 1952

  • NIOSH
    Carbonizing Properties: Chilton Coal From Lorado No. 5 Mine Lorado, Logan County, W. Va. - Introduction And Summary

    By J. D. Davis

    THE CARBONIZING properties of Chilton-bed coal from Lorado No. 5 mine, HE Logan County, W. Va., were determined by Bureau of Mines-American Gas Association tests at 600°, 700°, 800°, 900°, and 1,000°

    Jan 1, 1951

  • NIOSH
    Carbonizing Properties: Pocahontas No. 6, Davy Sewell, And Fire Creek Coals From West Virginia And Upper And Lower Kittanning And Upper And Lower Freeport Coals From Pennsylvania

    By J. D. Davis

    THE carbonizing properties of one medium- and and five low-volatile coals from West Virginia and one high-volatile A and two medium-volatile coals from Pennsylvania were determined by 800° and 900° C.

    Jan 1, 1950

  • NIOSH
    Carbonizing Properties: Tennessee Coals From The Jellico Bed In Campbell County And The Sewanee Bed In Marion County - Introduction And Summary

    By D. A. Reynolds

    THIS REPORT gives results of an investigation of the carbonizing properties of two Tennessee coals, one from the Jellico bed in Campbell County and the other from the Sewanee bed in Marion County. Jel

    Jan 1, 1953

  • NIOSH
    Carbonizing Properties: West Virginia Coals From The Beckley Bed, Caretta No. 5 Mine, McDowell County, And Glen Rogers No. 2 Mine, Wyoming County - Introduction And Summary

    By D. A. Reynolds

    THIS PAPER gives results of an investigation of the composition and carbonizing properties of coals from the Beckley bed, Caretta No. 5 mine, Susanna, McDowell County, and Glen Rogers No. 2 mine, Glen

    Jan 1, 1953

  • NIOSH
    Carbonizing Properties: West Virginia Coals From The Pittsburgh Bed Jamison No. 9 Mine, Marion County, And Upper Freeport Bed, Bull Run No. 1 Mine, Preston County ? Introduction And Summary

    By J. D. Davis

    THIS REPORT gives results of an investi¬gation of the carbonizing properties of coals from Pittsburgh bed, Jamison No. 9 mine, Marion County, W. Va., and from Upper Freeport bed, Bull Run No. 1 mine,

    Jan 1, 1952

  • IMPC
    Carbothermal Reduction and Nitride Preparing for Vanadium Nitride via One-step Method

    By S. S. Yu

    In this paper, the producing process of using V2O3 as raw material to obtain vanadium nitride was analyzed through the means of thermodynamic. The analysis shows that conversion follows the principle

    Jan 1, 2014

  • TMS
    Carbothermal Reduction pf Ilmenite Concentrate at High Temperature

    By Run Huang, Xuewei Lv, Lei Lei, Guibao Qiu, Chenguang Bai

    "The TiO2-rich slag and pig iron can be produced from ilmenite concentrate by the electric furnace process. In this study, ilmenite concentrate was reduced in a vertical furnace equipped with a weight

    Jan 1, 2011

  • CIM
    Carbothermal Upgrading of the Awaso Bauxite Ore using Waste Polypropylene as Reducing Agent

    By F. Awotwe-Appiah, P. Koshy, A. Y. Fosu, J. Dankwah, J. R. Dankwah

    Ghana currently exports its bauxite raw without any value addition. Gradual depletion of high grade bauxite (with high alumina content) and the emergence of low grade bauxite (with high iron oxide con

    Jan 1, 2015

  • TMS
    Carbothermic And Magnesiothermic Reduction Of Titanium Dioxide ? A Thermodynamic Analysis

    By Dinabandhu Ghosh

    The stability diagram of the ternary system Ti-C-O is drawn in the present work for four temperatures, 1473 K, 1573 K, 1673 K and 1873 K, showing the stability fields of TiC, Ti, TiO, Ti2O3 and TiO2.

    Jan 1, 2006

  • SME
    Carbothermic Reduction Kinetics of Ilmenite Concentrates Catalyzed by Sodium Chloride And Microwave-Absorbing Characteristics of Reductive Products

    By Wei Li

    Carbothermic reduction kinetics of ilmenite concentrates catalyzed by sodium chloride and the microwaveabsorbing characteristics of the resulting reductive products were investigated; the reduction de

  • SAIMM
    Carbothermic reduction of a willemite concentrate for use in the Waelz process

    By V. A. Leão, V. S. Coimbra, V. A. A. Oliveira, R. F. M. de Souza, G. M. de Lima

    A willemite concentrate consisting mainly of willemite (55.3%) and dolomite (15.6%) was reduced in a tube furnace with charcoal as reductant. The effects of temperature and varying reductant additions

    Nov 6, 2023

  • IMPC
    Carbothermic Reduction of Alumina into a Metallic Solvent Phase

    By Derek Caizergues, Hurman Eric

    Experiments have been conducted at around 1700°C to determine the possibility of carbothermic reduction of alumina under the presence of a metallic solvent. Total pressure of the system was reduced to

    Jan 1, 2003

  • TMS
    Carbothermic Reduction of Chalcopyrite in Presence of Lime

    By Animesh Jha

    The carbothermic reduction of chalcopyrite has been studied in the temperature range 1073 to 1273K in presence of lime. The role of lime during the reduction process is explained and the phase equilib

    Jan 1, 1992

  • TMS
    Carbothermic Reduction Of Ilmenite Concentrate With Coke Assisted By High Energy Ball Milling

    By Bing Song, Fei Xi, Xuewei Lv, Kai Zhang

    The electric arc furnace process is a common method to produce high TiO2 slag from ilmenite. The pre-reduction process was proposed in recent years in order to reduce electricity consumption. In order

    Jan 1, 2014

  • TMS
    Carbothermic Reduction of Lead Sulfate with Soda Ash .

    By B. L. Chulu

    In the carbothermic reduction of lead sulfate to produce lead, the inclusion of soda ash (Na,CO,) in the charge provides for the control of sulfur dioxide in the effluent gas. An important mechanism i

    Jan 1, 1993