Improvements of dry coke quenching plants

被引:0
|
作者
Bondarenko, V.V. [1 ]
Danilin, E.A. [1 ]
Volovich, Yu.M. [1 ]
Churiliv, A.N. [1 ]
Kaplunovskij, A.E. [1 ]
机构
[1] UkrENERGOCHERMET, Khar'kov, Russia
来源
Koks i Khimiya | 1991年 / 11期
关键词
Chemical Reactions - Coking - Coke - Metallurgical - Dust - Control;
D O I
暂无
中图分类号
学科分类号
摘要
Improvements of dry quenching plants constructions are designed to eliminate the main disadvantages: large plant sizes, high consumption of materials, high unit electric energy consumption, high dust content in circulating gas, high contents of combustible CO, H2, and CH4 (10-18%) components in circulating gas. The pilot dry quenching plant block has been developed. Detailed description of its construction and its individual units is given. The tests have shown its effectiveness, and developments of high productivity blocks as well as reconstructions of existing blocks are effective.
引用
收藏
页码:27 / 28
相关论文
共 50 条
  • [21] INFLUENCE OF DRY QUENCHING ON THE QUALITY OF PRECARBON COKE
    YOKOMIZO, M
    TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN, 1985, 71 : S851 - S851
  • [22] Modeling of Coke Distribution in a Dry Quenching Zone
    Pyshyev, Serhiy
    Zbykovskyy, Yevgen
    Shvets, Iryna
    Miroshnichenko, Denis
    Kravchenko, Sergiy
    Stelmachenko, Stanislav
    Demchuk, Yuriy
    Vytrykush, Nataliya
    ACS OMEGA, 2023, 8 (22): : 19464 - 19473
  • [23] Coke dry quenching and implications on coke quality and blast furnace performance
    Gangadharan, S.
    Bhushan, Ashutosh
    Kumar, Sanjiv
    Singh, Rashmi
    Mohan, Kumar Madan
    Shankar, Amitabh
    Reddy, A. S.
    IRONMAKING & STEELMAKING, 2023, 50 (01) : 75 - 83
  • [24] Failure Analysis of Coke Dry Quenching Car Liners in Coke Plant
    Urbi Pal
    Piyas Palit
    Jitendra Mathur
    Prabhash Gokarn
    Avishek Maharana
    Journal of Failure Analysis and Prevention, 2020, 20 : 2065 - 2077
  • [25] Usage of coke dry quenching dust to improve coke mean size
    Tulsyan, Nidhi
    Shankar, Amitabh
    Thakur, Ravinandan
    Pal, Atanu Ranjan
    Chakraborty, Debaprasad
    Sinha, Nisha
    Srivastava, Utkarsh
    INTERNATIONAL JOURNAL OF COAL PREPARATION AND UTILIZATION, 2024,
  • [26] Thermal Neutralization of Excessive Heat Transfer Agent in Coke Dry-Quenching Plants (CDQP)
    Matyukhin, V. I.
    Stakheev, S. G.
    Matyukhina, A. V.
    Zhuravlev, S. Ya.
    INTERNATIONAL CONFERENCE WITH ELEMENTS OF SCHOOL FOR YOUNG SCIENTISTS ON RECYCLING AND UTILIZATION OF TECHNOGENIC FORMATIONS (TECHNOGEN-2017), 2017, : 14 - 18
  • [27] Failure Analysis of Coke Dry Quenching Car Liners in Coke Plant
    Pal, Urbi
    Palit, Piyas
    Mathur, Jitendra
    Gokarn, Prabhash
    Maharana, Avishek
    JOURNAL OF FAILURE ANALYSIS AND PREVENTION, 2020, 20 (06) : 2065 - 2077
  • [28] COKE BURNUP IN A DRY COKE QUENCHING DEVICE AND METHODS OF DECREASING IT.
    Filonenko, Yu.Ya.
    Naumkin, V.A.
    Eremenko, G.N.
    Sobolev, S.Ya.
    Rusakov, Yu.V.
    Coke and chemistry U.S.S.R., 1984, (09): : 13 - 17
  • [29] Indexes of coke strength in case of dry quenching instead of wet quenching
    Muchnik, D.A.
    Gulyaev, V.M.
    Koks i Khimiya, 2005, (08): : 15 - 19
  • [30] Conceptual design of a coke dry quenching gasification technology
    Sun, Lanyi
    Liu, Yongduo
    Zhou, Hui
    Li, Qingsong
    ADVANCED RESEARCH ON INFORMATION SCIENCE, AUTOMATION AND MATERIAL SYSTEM, PTS 1-6, 2011, 219-220 : 416 - 419
12345