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4-lump kinetic model for non-catalytic oil shale upgrading at sub- and supercritical water conditions

被引:4
|
作者
Felix, Guillermo [1 ,2 ]
Djimasbe, Richard [1 ]
Varfolomeev, Mikhail A. [1 ]
Al-Muntaser, Ameen [1 ]
Tirado, Alexis [1 ,2 ]
Suwaid, Muneer [1 ]
Prochukhan, Konstantin Y. [3 ]
Galiullin, Eduard A. [1 ]
Shamanov, Insaf N. [1 ]
Morozova, Evgeniya, V [4 ]
Gareev, Bulat I. [4 ]
Ancheyta, Jorge [1 ,5 ,6 ]
机构
[1] Kazan Fed Univ, Dept Petr Engn, Kazan 420008, Russia
[2] Tecnol Nacl Mexico IT Los Mochis, Los Mochis 81259, Sinaloa, Mexico
[3] Gazpromneft Technol Partnership LLC, St Petersburg 190000, Russia
[4] Kazan Fed Univ, Inst Geol & Petr Technol, Kazan 420008, Russia
[5] Inst Mexicano Petr, Eje Cent Lazaro Cardenas Norte 152, Mexico City 07730, Mexico
[6] UPALM, Inst Politecn Nacl, Escuela Super Ingn Quim & Ind Extract, Mexico City 07738, Mexico
来源
FUEL | 2024年 / 357卷
关键词
Oil shale; Kinetic model; Supercritical water; HEAVY OIL; NUMERICAL-SIMULATION; PYROLYSIS; EXTRACTION; MECHANISM; AQUATHERMOLYSIS; GENERATION; CONVERSION; EFFICIENT; BEHAVIOR;
D O I
10.1016/j.fuel.2023.129987
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 kinetics of non-catalytic oil shale conversion at sub-and supercritical water conditions was studied. All experiments were carried out in a batch reactor at 300-400 degree celsius and 1-48 h. A four-lump reaction scheme is proposed, where oil shale produces synthetic oil, gas and coke, and some other reactions take place between products (coke to gas, synthetic oil to gas and synthetic oil to coke). Low average absolute error (<6.5%) was obtained, which corroborates the accuracy of estimated parameters of the developed kinetic model. The reaction rate was found to depend more on synthetic oil yield than on oil shale conversion according to the calculated reaction orders. The sensitivity analysis of the kinetic parameters showed that all values of the obtained reaction rate coefficients are the optimal. At temperatures near the critical point of water (350 and 400 degree celsius), lowest values for asphaltenes and highest light fractions contents in synthetic oil were obtained.
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页数:11
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  • [31] Liquefaction of palm kernel shell to bio-oil using sub- and supercritical water: An overall kinetic study
    Chan, Yi Herng
    Quitain, Armando T.
    Yusup, Suzana
    Uemura, Yoshimitsu
    Sasaki, Mitsuru
    Kida, Tetsuya
    [J]. JOURNAL OF THE ENERGY INSTITUTE, 2019, 92 (03) : 535 - 541
  • [32] Sub- and supercritical water conversion of organic-rich shale with low-maturity for oil and gas generation: using Chang 7 shale as an example
    Zhao, Qiuyang
    Dong, Yu
    Zheng, Lichen
    Xie, Tian
    Bawaa, Baercheng
    Jin, Hui
    Guo, Liejin
    [J]. SUSTAINABLE ENERGY & FUELS, 2022, 7 (01) : 155 - 163
  • [33] Use of deuterated water to prove its role as hydrogen donor during the hydrothermal upgrading of oil shale at supercritical conditions
    Djimasbe, Richard
    Varfolomeev, Mikhail A.
    Khasanova, Nailya M.
    Al-Muntaser, Ameen A.
    Davletshin, Rustam R.
    Suwaid, Muneer A.
    Mingazov, Gazinur Z.
    [J]. JOURNAL OF SUPERCRITICAL FLUIDS, 2024, 204
  • [34] Hydrothermal upgrading of heavy oil in the presence of water at sub-critical, near-critical and supercritical conditions
    Al-Muntaser, Ameen A.
    Varfolomeev, Mikhail A.
    Suwaid, Muneer A.
    Yuan, Chengdong
    Chemodanov, Artem E.
    Feoktistov, Dmitriy A.
    Rakhmatullin, Ilfat Z.
    Abbas, Mustafa
    Dominguez-Alvarez, Enrique
    Akhmadiyarov, Aydar A.
    Klochkov, Vladimir V.
    Amerkhanov, Marat I.
    [J]. JOURNAL OF PETROLEUM SCIENCE AND ENGINEERING, 2020, 184
  • [35] Non Catalytic Transesterification of Vegetables Oil to Biodiesel in Sub-and Supercritical Methanol: A Kinetic's Study
    Asri, Nyoman Puspa
    Machmudah, Siti
    Wahyudiono, W.
    Suprapto, S.
    Budikarjono, Kusno
    Roesyadi, Achmad
    Goto, Motonobu
    [J]. BULLETIN OF CHEMICAL REACTION ENGINEERING AND CATALYSIS, 2013, 7 (03): : 215 - 223
  • [36] Magnetism in CoFe2O4 nanoparticles produced at sub- and near-supercritical conditions of water
    Stingaciu, Marian
    Andersen, Henrik L.
    Granados-Miralles, Cecilia
    Mamakhel, Aref
    Christensen, Mogens
    [J]. CRYSTENGCOMM, 2017, 19 (28) : 3986 - 3996
  • [37] Effect of mixing bio-oil aqueous phase model compounds on hydrogen production in non-catalytic supercritical reforming
    Gutierrez Ortiz, F. J.
    Campanario, F. J.
    Ollero, P.
    [J]. REACTION CHEMISTRY & ENGINEERING, 2017, 2 (05): : 679 - 687
  • [38] Kinetic Analysis of a Solid Base-Catalyzed Reaction in Sub- and Supercritical Water Using Aldol Condensation with Mg(OH)2 as a Model
    Akizuki, Makoto
    Nakai, Yusuke
    Fujii, Tatsuya
    Oshima, Yoshito
    [J]. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2017, 56 (42) : 12111 - 12118
  • [39] Kinetics of extra-heavy oil upgrading in supercritical water with and without zinc nitrate using the phase separation kinetic model
    Sim, Seungjae
    Kong, Won Bae
    Kim, Jonghyeon
    Kang, Jimoon
    Lee, Hwi-Sung
    Lee, Youn-Woo
    [J]. JOURNAL OF SUPERCRITICAL FLUIDS, 2020, 165
  • [40] Upgrading of lignin-derived bio-oil in non-catalytic plasma reactor: Effects of operating parameters on 4-methylanisole conversion
    Hosseinzadeh, Mohammad Bagher
    Rezazadeh, Shahin
    Rahimpour, Hunk Reza
    Taghvaei, Hamed
    Rahimpour, Mohammad Reza
    [J]. CHEMICAL ENGINEERING RESEARCH & DESIGN, 2015, 104 : 296 - 305
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