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نوع مقاله : مقاله پژوهشی

موضوعات


Behar, F., Lorant, F., Lewan, M., 2008. Role of NSO compounds during primary cracking of a Type II
kerogen and a Type III lignite, Organic Geochemistry, 39: 1-22.##
Braun, R. L., Rothman, A. J., 1975. Oil-shale pyrolysis: Kinetics and mechanism of oil production, Fuel,
54: 129-131.##
Brown, M. E., Maciejewski, M., Vyazovkin, S., Nomen, R., Sempere, J., Burnham, A. K., Opfermann,
J., Strey, R., Anderson, H. L., Kemmler, A., Keuleers, R., Janssens, J., Desseyn, H. O., Li, C.-R.,
Tang, T. B., Roduit, B., Malek, J., Mitsuhashi, T., 2000. Computational aspects of kinetic analysis,
Thermochimica Acta, 355: 125-143.##
Burnham, A. K., Happe, J. A., 1994. On the mechanism of kerogen pyrolysis, Fuel, 63: 1353-1356.##
Burnham, A. K., Huss, B. E., Singleton, M.F., 1983. Pyrolysis kinetics for Green River oil shale from
the saline zone, M. F. Fuel, 62: 1199-1204.##
Campbell, J. H., Gallegos, G., Gregg, M.,1980. Gas evolution during oil shale pyrolysis. 2. Kinetic and
stoichiometric analysis, Fuel, 59: 727-732.##
Campbell, J. H., Koskinas, G. J., Gallegos, G., Gregg, M., 1980. Gas evolution during oil shale pyrolysis.
1. Nonisothermal rate measurements, Fuel, 59: 718-726.##
Finucane, D., George, J., Harrist, H., 1977. Perturbation analysis of second-order effects in kinetics of
oil-shale pyrolysis, H. G. Fuel, 56: 65-69.##
Flynn, J. H., Wall, L. A.,1966. General treatment of the thermogravimetry of polymers, J Res Nat Bur
Stand, 70(6): 487-523.##
Fogler, H. S., 2006. Elements of Chemical Reaction Engineering; 4th Edition, Prentice Hall, Upper
Saddle River, 869-87.##
Hunt, M. H., 1996. Petroleum Geochemistry and Geology; W. H. Freeman and Company, 1-743.##
Johannes, I., Zaidentsal, A., 2008. Kinetics of low-temperature retorting of Kukersite oil shale, Oil
Shale, 25(4): 412-425.##
Kissinger, H. E.,1957. Reaction kinetics in differential thermal analysis, Analytical Chemistry, 29(11):
1702-1706.##
Kök, M. V., Pamir, M. R., 1995. Pyrolysis and combustion studies of fossil fuels by thermal analysis
methods, Journal of Analytical and Applied Pyrolysis, 35: 145-156.##
Kök, M. V., Senguler, I., Hufnagel, H., Sonel, N., 2001. Thermal and Geochemical Investigation of
Seyitömer Oil Shale, Thermochimica Acta, 371: 111-119.##
Ozawa, T., 1965. A new method of analyzing thermogravimetric data, Bulletin of the chemical society
of Japan, 38(11): 1881-1886.##
Qing, W., Hongpeng, L., Baizhong, S., Shaohua, L., 2009. Study on pyrolysis characteristics of huadian
oil shale with isoconversional method, Oil Shale, 26(2): 148-162.##
Rasouli, A., Shekarifard, A., Jalali Farahani, F., Kök, M. V., 2014. In 6th Saint Petersburg International
Conference & Exhibition - Geosciences - Investing in the Future; EarthDoc: Saint Petersburg, Russia,
2014.##
Rasouli, A., Shekarifard, A., Jalali Farahani, F., Kök, M. V., Daryabandeh, M. Rashidi, M., 2015.
Occurrence of organic-rich deposits (Middle Jurassic to Lower Cretaceous) from Qalikuh locality,
Zagros Basin, South-West of Iran: A possible oil shale resource. International Journal of Coal
Geology, 143: 34-42.##
Rajeshwar, K., 1981. The kinetics of the thermal decomposition of green river oil shale kerogen by nonisothermal
thermogravimetry, Thermochimica Acta, 45: 253-263.##
Rajeshwar, K., DuBow, J. B., 1982. On the validity of a first-order kinetics scheme for the thermal
decomposition of oil shale kerogen, Thermochimica Acta, 54: 71-85.##
Rosenvold, R. J., Rajeshwar, K.,1982. On the correlation between thermogravimetric response and
potential oil yields for green river oil shale, Thermochimica Acta, 57: 1-3.##
Sbirrazzuoli, N., 2007. Is the Friedman method applicable to transformations with temperature
dependent reaction heat? , Macromolecular Chemistry and Physics, 208: 1592-1597.##
Sbirrazzuoli, N., Vincent, L., Mija, A., Guigo, N., 2009. Integral, differential and advanced
isoconversional methods, Chemometrics and Intelligent Laboratory Systems, 96: 219-226.##
Shekarifard, A., Daryabandeh, M., Rashidi, M., Hajian, M. Röth, J., 2019. Petroleum geochemical
properties of the oil shale from the Lower Cretaceous Garau Formation, Qalikuh locality, Zagros
Geopersia 2021, 11(2): 289-297 297##
Range, Iran. International Journal of Coal Geology, 206: 1-18.##
Skala, D., Kopsch, H., Sokić, M., Neumann, H.-J., Jovanović, j., 1987. Thermogravi-metrically and
differential scanning calorimetrically derived kinetics of oil shale pyrolysis , Fuel, 66: 1185-1191.##
Tiwari, P., Deo, M., 2012. Detailed kinetic analysis of oil shale pyrolysis TGA data, AIChE, 58(2): 505-
515.##
Vyazovkin, S., Wight, C. A., 1998. Isothermal and non-isothermal kinetics of thermally stimulated
reactions of solids, International Reviews in Physical Chemistry, 17(3): 407-433.##
Vyazovkin, S., Burnham, A. K., Criado, J. M., Pérez-Maqueda, L. A., Popescu, C., Sbirrazzuoli, N.,
2011. ICTAC kinetics committee recommendations for performing kinetic computations on thermal
analysis data, Thermochimica Acta, 520: 1-19.##
Warne, S. S. J., Dubrawski, J. V., 1989. Applications of DTA and DSC to coal and oil shale evaluation,
Journal of Thermal Analysis, 35: 219-242.##
Williams, P. F. V., 1985. Petroleum geochemistry of the Kimmeridge Clay of onshore Southern and
Eastern England, Fuel, 64: 540-545.##
Williams, P. T., Ahmad, N., 2000. Investigation of oil-shale pyrolysis processing conditions using
thermogravimetric analysis, Applied Energy, 66: 113-133##