KARAGANDA LOW-VOLATILE CAKING COALS FOR METALLURGICAL-COKE PRODUCTION

被引:0
|
作者
GLUSHCHE.IM
KHIMICHE.AV
RUBAN, VA
ERMOLAEV.NK
MELNICHU.AY
OLFERT, AI
CHALYI, NV
机构
[1] KARAGANDA INTEGRATED IRON STEEL WORKS,KARAGANDA,KASSR
[2] KARAGANDAUGOL COMBINE,KARAGANDA,KASSR
[3] KARAGANDA SOLID FUEL DRESSING INST,KARAGANDA,KASSR
[4] CENT COAL IND INST,KARAGANDA,KASSR
来源
COKE & CHEMISTRY USSR | 1973年 / 08期
关键词
D O I
暂无
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
引用
收藏
页码:6 / 8
页数:3
相关论文
共 40 条
  • [31] Production of high strength metallurgical coke by modification of Xinjiang low quality coking coal
    Wu Q.
    Zhu Z.
    Jiao W.
    Yao L.
    Wang F.
    [J]. Meitan Xuebao/Journal of the China Coal Society, 2021, 46 (10): : 3357 - 3364
  • [32] Facemasks and ferrous metallurgy: improving gasification reactivity of low-volatile coals using waste COVID-19 facemasks for ironmaking application
    Daniel J. C. Stewart
    Lucy V. Fisher
    Michael E. A. Warwick
    David Thomson
    Andrew R. Barron
    [J]. Scientific Reports, 12
  • [33] PROCESS FOR THE CONCURRENT PRODUCTION OF HYDROGEN, CARBON-MONOXIDE AND LOW-VOLATILE, LOW-SULFUR CHAR BY FLASH CARBONIZATION OF COAL
    SAVAGE, RL
    CHEN, WJ
    SATO, A
    PATKE, NG
    HERETH, M
    TONG, JY
    KNELLER, WE
    [J]. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 1982, 7 (09) : 717 - 724
  • [34] Production of High-Strength Coke from Low-Quality Coals Chemically Modified with Thermoplastic Components
    Tsubouchi, Naoto
    Naganuma, Ryo
    Mochizuki, Yuuki
    Hayashizaki, Hideyuki
    Shishido, Takahiro
    Sharma, Atul
    [J]. ISIJ INTERNATIONAL, 2019, 59 (08) : 1396 - 1403
  • [35] Production of High-Strength Coke from Low-Quality Coals Chemically Modified with Thermoplastic Components
    Tsubouchi, Naoto
    Naganuma, Ryo
    Mochizuki, Yuuki
    Hayashizaki, Hideyuki
    Shishido, Takahiro
    Sharma, Atul
    [J]. TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN, 2021, 107 (01): : 15 - 23
  • [36] Production of High-strength Cokes from Non-/Slightly Caking Coals. Part I: Effects of Coal Pretreatment and Variables for Briquetting and Carbonization on Coke Properties
    Matoba, Masahiro
    Kudo, Shinji
    Mori, Aska
    Norinaga, Koyo
    Uchida, Kenya
    Dohi, Yusuke
    Uebo, Kazuya
    Hayashi, Jun-ichiro
    [J]. ISIJ INTERNATIONAL, 2019, 59 (08) : 1440 - 1448
  • [37] The challenge to use extremely low volatile Australian weak coking coals in the production of good quality cokes
    Caldeira, JG
    Stainlay, RL
    [J]. 61ST IRONMAKING CONFERENCE PROCEEDINGS, 2002, 61 : 405 - 418
  • [38] The environmental impact and economic feasibility of introducing an Organic Rankine Cycle to recover low grade heat during the production of metallurgical coke
    Walsh, Conor
    Thornley, Patricia
    [J]. JOURNAL OF CLEANER PRODUCTION, 2012, 34 : 29 - 37
  • [39] Solvent-refined coal from high-ash non-coking coals and washery middlings for use in metallurgical coke making .1. Production, testing and characterisation
    Choudhury, SB
    Brahmachari, BB
    Dwivedi, SR
    Roy, AK
    Dasgupta, PK
    Chakraborty, M
    Haque, R
    [J]. FUEL PROCESSING TECHNOLOGY, 1996, 47 (03) : 203 - 213
  • [40] Biological monitoring of exposure to low concentrations of benzene in workers at a metallurgical coke production plant: new insights into S-phenylmercapturic acid and urinary benzene
    Lovreglio, Piero
    De Palma, Giuseppe
    Barbieri, Anna
    Andreoli, Roberta
    Drago, Ignazio
    Greco, Luciano
    Gallo, Elisabetta
    Diomede, Laura
    Scaramuzzo, Pietro
    Ricossa, Maria Cristina
    Fostinelli, Jacopo
    Apostoli, Pietro
    Soleo, Leonardo
    [J]. BIOMARKERS, 2018, 23 (01) : 70 - 77
1234