Preliminary Analysis of Oil Shale Obtained from Kalynkara in Kazakhstan

被引:2
作者
Kairbekov, Zhaksyntai K. [2 ]
Masuda, Naoto [1 ]
Ohshima, Masa-aki [1 ]
Myltykbaeva, Zhannur K. [2 ]
Kairbayeva, Nazarke [2 ]
Yemilyanova, Valentina S. [2 ]
Kurokawa, Hideki [1 ]
Miura, Hiroshi [1 ]
机构
[1] Saitama Univ, Grad Sch Sci & Engn, Sakura Ku, Saitama 3388570, Japan
[2] Al Farabi Kazakh Natl Univ, Sci Res Inst New Chem Technol & Mat, Alma Ata 050040, Kazakhstan
来源
JOURNAL OF THE JAPAN PETROLEUM INSTITUTE | 2014年 / 57卷 / 04期
关键词
Oil shale; Kazakhstan; Thermal analysis; Elemental analysis; Hydrogen/Carbon ratio; MINERAL MATRIX; PYROLYSIS; COMBUSTION; DEMINERALIZATION; TURKEY;
D O I
10.1627/jpi.57.192
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
Oil shale obtained from Kalynkara in Kazakhstan was investigated by powder XRD, XRF, SEM, TG-DTA, and EA. The XRD profiles indicated that the oil shale contained quartz (major component), CaSO4 center dot 2H(2)O, and Mg4Al2(OH)(12)CO2 center dot H2O as minerals. The amount of organic matter in the oil shale was determined by TG-DTA and was approximately 19 wt% based on the weight loss in the temperature range of 473-823 K. Moreover, the H/C ratio determined by EA and TG-DTA was 0.86, indicating that the structure of the organic matter was similar to that of coal. We attempted to extract the organic matter from the oil shale in decalin at 373-623 K, but no significant amount of products was obtained.
引用
收藏
页码:192 / 195
页数:4
相关论文
共 22 条
[11]   Geochemistry of terrestrial oil shale from the Lunpola area, northern Tibet, China [J].
Fu, Xiugen ;
Wang, Jian ;
Tan, Fuwen ;
Feng, Xinglei ;
Wang, Dong ;
Song, Chunyan .
INTERNATIONAL JOURNAL OF COAL GEOLOGY, 2012, 102 :1-11
[12]   Thermodynamic Analysis of the Gasification of Oil Shale from the Kenderlyk Deposit [J].
Gyul'maliev, A. M. ;
Kairbekov, Zh. K. ;
Maloletnev, A. S. ;
Emel'yanova, V. S. ;
Maltykbaeva, Zh. K. .
SOLID FUEL CHEMISTRY, 2013, 47 (06) :360-364
[13]   Progress and recent utilization trends in combustion of Chinese oil shale [J].
Jiang, X. M. ;
Han, X. X. ;
Cui, Z. G. .
PROGRESS IN ENERGY AND COMBUSTION SCIENCE, 2007, 33 (06) :552-579
[14]   Characterization of Indian origin oil shale using advanced analytical techniques [J].
Kumar, Ravindra ;
Bansal, Veena ;
Badhe, R. M. ;
Madhira, Indu Sekhara Sastry ;
Sugumaran, Vatsala ;
Ahmed, Saeed ;
Christopher, Jayaraj ;
Patel, Mitra Bhanu ;
Basu, Biswajit .
FUEL, 2013, 113 :610-616
[15]   Solvent Extraction of Bitumen from Jordan Oil Shale Assisted by Low Frequency Ultrasound [J].
Matouq, Mohammed ;
Koda, Shinobu ;
Maricela, Toma ;
Omar, Alayed ;
Tagawa, Tomohiko .
JOURNAL OF THE JAPAN PETROLEUM INSTITUTE, 2009, 52 (05) :265-269
[16]   Mineral and trace element composition of the Lokpanta oil shales in the Lower Benue Trough, Nigeria [J].
Sonibare, Oluwadayo O. ;
Jacob, Dorrit E. ;
Ward, Colin R. ;
Foley, Stephen F. .
FUEL, 2011, 90 (09) :2843-2849
[17]   Current Trends in the Pyrolysis of Oil Shale: A Review [J].
Strizhakova, Yu. A. ;
Usova, T. V. .
SOLID FUEL CHEMISTRY, 2008, 42 (04) :197-201
[18]   Compositional and kinetic analysis of oil shale pyrolysis using TGA-MS [J].
Tiwari, Pankaj ;
Deo, Milind .
FUEL, 2012, 94 (01) :333-341
[19]   Pyrolysis kinetic study of Huadian oil shale, spent oil shale and their mixtures by thermogravimetric analysis [J].
Wang, Zhijun ;
Deng, Sunhua ;
Gu, Qiang ;
Zhang, Yumin ;
Cui, Xuejun ;
Wang, Hongyan .
FUEL PROCESSING TECHNOLOGY, 2013, 110 :103-108
[20]   A TG-FTIR investigation to the catalytic effect of mineral matrix in oil shale on the pyrolysis and combustion of kerogen [J].
Yan, Junwei ;
Jiang, Xiumin ;
Han, Xiangxin ;
Liu, Jianguo .
FUEL, 2013, 104 :307-317
123