EFFECT OF ORGANIC MATTER CONTENT AND TYPE OF MINERAL MATTER ON THE OIL YIELD FROM OIL SHALES

被引:7
|
作者
Johannes, Ille [1 ]
Luik, Hans [1 ]
Bojesen-Koefoed, Jorgen A. [2 ]
Tiikma, Laine [1 ]
Vink, Natalia [1 ]
Luik, Lea [1 ]
机构
[1] Tallinn Univ Technol, Dept Polymer Mat, Lab Oil Shale & Renewables Res, EE-19086 Tallinn, Estonia
[2] Geol Survey Denmark & Greenland GEUS, DK-1350 Copenhagen K, Denmark
来源
OIL SHALE | 2012年 / 29卷 / 03期
关键词
oil shale; pyrolysis; organic matter; mineral matter; PYROLYSIS; DEMINERALIZATION; DEPOSITS;
D O I
10.3176/oil.2012.3.02
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 effect of organic matter (OM) content and type of mineral matter (MM) on the oil yield at retorting of different natural oil shale samples, those demineralized by acid treatment ones, and the kukersite OM flotation concentrate mixed with individual minerals has been described basing on the previously published results. The influence of OM content in Estonian kukersite natural samples and their flotation concentrates on the yield of benzene extract after supercritical water conversion and thermobituminization in autoclaves, and on evolution of hydrocarbons in source rock analysis (SRA) has been studied experimentally. A comparative study has been carried out by plotting the oil yields versus the according OM contents. The variations in the adsorption capacity of oil on MM and in the oil yield from a unit of OM are characterized by the values of intercept and slope of the approximated linear trendlines.
引用
收藏
页码:206 / 221
页数:16
相关论文
共 50 条
  • [1] The organic matter in oil shales
    McKee, RH
    Goodwin, RT
    [J]. INDUSTRIAL AND ENGINEERING CHEMISTRY, 1923, 15 : 343 - 349
  • [2] EFFECT OF MINERAL MATTER ON PRODUCT YIELD AND COMPOSITION AT ISOTHERMAL PYROLYSIS OF TURKISH OIL SHALES
    Sert, M.
    Ballice, L.
    Yuksel, M.
    Saglam, M.
    [J]. OIL SHALE, 2009, 26 (04) : 463 - 474
  • [3] Evaluation of Mineralogical Composition and Organic Matter Content of Oil Shales by IR Microscopy
    N. G. Tanykova
    Yu. Yu. Petrova
    M. Yu. Spasennykh
    E. A. Vtorushina
    M. G. Kul’kov
    M. N. Vtorushin
    V. M. Kuklina
    S. V. Nekhoroshev
    E. V. Kozlova
    J. V. Kostina
    [J]. Geochemistry International, 2023, 61 : 293 - 301
  • [4] Evaluation of Mineralogical Composition and Organic Matter Content of Oil Shales by IR Microscopy
    Tanykova, N. G.
    Petrova, Yu. Yu.
    Spasennykh, M. Yu.
    Vtorushina, E. A.
    Kul'kov, M. G.
    Vtorushin, M. N.
    Kuklina, V. M.
    Nekhoroshev, S. V.
    Kozlova, E. V.
    Kostina, J. V.
    [J]. GEOCHEMISTRY INTERNATIONAL, 2023, 61 (03) : 293 - 301
  • [5] Organic Matter and Deposition Conditions of the Kashpir Oil Shales
    Bushnev, D. A.
    Burdel'naya, N. S.
    [J]. GEOCHEMISTRY INTERNATIONAL, 2008, 46 (10) : 971 - 984
  • [6] Analysis of the organic matter in oil shales distributed in Korea
    Yang, MY
    Jeon, CW
    Yang, MK
    Lee, SH
    Wakita, H
    [J]. ANALYTICAL SCIENCES, 1997, 13 : 433 - 436
  • [7] Organic matter and deposition conditions of the Kashpir oil shales
    D. A. Bushnev
    N. S. Burdel’naya
    [J]. Geochemistry International, 2008, 46 : 971 - 984
  • [8] ANALYSIS OF THE ORGANIC-MATTER IN 5 OIL SHALES
    PALMER, SR
    GAINES, AF
    JARVIE, AWP
    [J]. FUEL, 1989, 68 (10) : 1234 - 1242
  • [9] Reduction of molecular motion of polymethylene in oil shales by mineral matter
    Lee, GSH
    Berkovich, AJ
    Levy, JH
    Young, BR
    Wilson, MA
    [J]. ENERGY & FUELS, 1998, 12 (02) : 262 - 267
  • [10] Experimental constraints on the evolution of organic matter in oil shales during heating: Implications for enhanced in situ oil recovery from oil shales
    Yu, Fengning
    Sun, Pingchang
    Zhao, Kang'an
    Ma, Lin
    Tian, Xuemei
    [J]. FUEL, 2020, 261
12345