A review of slurry-phase hydrocracking heavy oil technology

被引:231
|
作者
Zhang, Shuyi [1 ]
Liu, Dong [1 ]
Deng, Wenan [1 ]
Que, Guohe [1 ]
机构
[1] Univ Petroleum China, State Key Lab Heavy Oil Proc, Shandong 257061, Peoples R China
来源
ENERGY & FUELS | 2007年 / 21卷 / 06期
关键词
D O I
10.1021/ef700253f
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
The technologies of slurry-phase hydrocracking of heavy oil and the latest development of dispersed catalysts were reviewed. Catalysts for slurry-phase hydrocracking of heavy oil have undergone two development phases, that is, heterogeneous solid powder catalysts and homogeneous dispersed catalysts. The homogeneous dispersed catalysts are divided into water-soluble dispersed catalysts and oil-soluble dispersed catalysts. Solid powder catalysts have low catalytic activity, which will produce a large number of solid particles in bottom oil; thus it is difficult to dispose and utilize. Dispersed catalysts are highly dispersed and have greater surface area to volume ratio. Therefore, they show high catalytic activity and good performance. They are desirable catalysts for slurry-phase hydrocracking of heavy oil.
引用
收藏
页码:3057 / 3062
页数:6
相关论文
共 50 条
  • [1] A review on the oil-soluble dispersed catalyst for slurry-phase hydrocracking of heavy oil
    Nguyen, Manh Tung
    Nguyen, Ngoc Thuy
    Cho, Joungmo
    Park, Chulwoo
    Park, Sunyoung
    Jung, Jinhwan
    Lee, Chul Wee
    [J]. JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY, 2016, 43 : 1 - 12
  • [2] Viscosity Reduction of Heavy Oil during Slurry-Phase Hydrocracking
    Quitian, Alexander
    Fernandez, Yatzirih
    Ancheyta, Jorge
    [J]. CHEMICAL ENGINEERING & TECHNOLOGY, 2019, 42 (01) : 148 - 155
  • [3] Synthesis of the Molybdenum Precursor for Slurry-Phase Hydrocracking of Heavy Oil
    Choi, Byong-Min
    Son, Seok-Hwan
    Noh, Min-Sub
    Lee, Kwang-Seok
    Lee, Chul-Wee
    Park, Sun-Yeong
    Chung, Min-Chul
    [J]. JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 2018, 18 (02) : 1465 - 1467
  • [4] Role of Hydrogen Pressure in Slurry-Phase Hydrocracking of Venezuela Heavy Oil
    Du, Hui
    Liu, Dong
    Liu, Hua
    Gao, Peng
    Lv, Renqing
    Li, Ming
    Lou, Bin
    Yang, Yuanxi
    [J]. ENERGY & FUELS, 2015, 29 (04) : 2104 - 2110
  • [5] Exploratory Study for the Upgrading of Transport Properties of Heavy Oil by Slurry-Phase Hydrocracking
    Quitian, Alexander
    Leyva, Carolina
    Ramirez, Sergio
    Ancheyta, Jorge
    [J]. ENERGY & FUELS, 2015, 29 (01) : 9 - 15
  • [6] Modeling of Slurry-Phase Reactors for Hydrocracking of Heavy Oils
    Calderon, Cristian J.
    Ancheyta, Jorge
    [J]. ENERGY & FUELS, 2016, 30 (04) : 2525 - 2543
  • [7] Slurry-phase hydrocracking of heavy oil and model reactant: effect of dispersed Mo catalyst
    Du, Hui
    Li, Ming
    Liu, Dong
    Ren, Yuyang
    Duan, Yajing
    [J]. APPLIED PETROCHEMICAL RESEARCH, 2015, 5 (02): : 89 - 98
  • [8] Slurry-phase hydrocracking of heavy oil over Mo precursors: Effect of triphenylphosphine ligands
    Kang, Ki Hyuk
    Ngoc Thuy Nguyen
    Seo, Pill Won
    Seo, Hwimin
    Kim, Gyoo Tae
    Kang, Narae
    Lee, Chul Wee
    Han, Seung Ju
    Chung, Min-Chul
    Park, Sunyoung
    [J]. JOURNAL OF CATALYSIS, 2020, 384 : 106 - 121
  • [9] Partial Upgrading of Heavy Crude Oil by Slurry-Phase Hydrocracking with Analytical Grade and Ore Catalysts
    Quitian, Alexander
    Ancheyta, Jorge
    [J]. ENERGY & FUELS, 2016, 30 (12) : 10117 - 10125
  • [10] Modeling, simulation, and parametric sensitivity analysis of a commercial slurry-phase reactor for heavy oil hydrocracking
    Calderon, Cristian J.
    Ancheyta, Jorge
    [J]. FUEL, 2019, 244 : 258 - 268
12345