References
- A study on the EU oil shale industry—viewed in the light of the Estonian experience. May 2007. A report by EASAC to the Committee on Industry, Research and Energy of the European Parliament. European Academics Science Advisory Council, pp. 1–57.
- Coats, A. W., and Redfern, J. P. 1964. Kinetics parameters from thermogravimetric data. Nature 201:68–69.
- Han, X. X., Jiang, X. M., and Cui, Z. G. 2006. Thermal analysis studies on combustion mechanism of oil shale. J. Ther. An. Calo. 84:631–636.
- Kaljuvee, T., Keelmann, M., Trikkel, A., and Kuusik, R. 2011. Thermooxidative decomposition of oil shales. J. Ther. An. Cal. 105:395–403.
- Kök, M. V., and Pamir, M. R. 2000. Comparative pyrolysis and combustion kinetics of oil shales. J. Anal. Appl. Pyr. 55:185–194.
- Kök, M. V. 2001. Thermal investigation of seyitömer oil shale. Thermoch. Acta 369:149–155.
- Kök, M. V., Pokol, G., Keskin, C., Madarász, J., and Bağcı, S. 2004. Combustion characteristics of lignite and oil shale samples by thermal analysis. J. Ther. An. Cal. 76:247–254.
- Kök, M. V. 2007. Heating rate effect on the DSC kinetics of oil shales. J. Ther. An. Cal. 90:817–821.
- Shi, G. 2006. A realistic energy substitute for petroleum-oil shale, J. Jilin Univ. (Earth Science Edition) 36:887–891.
- Yağmur, S., and Durusoy, T. 2009. Oil shale combustion kinetics from single thermogravimetric curve. En. Sou., Part A: Rec. Util. Env. Eff. 31:1227–1235.
- Zhang, L., Zhang, X., Li, S., and Wang, Q. 2012. Comprehensive utilization of oil shale and prospect analysis. Energy Procedia 19:39–43.
- Zhen-yong, M., Guo-guang, W., Ping, L., Na, Z., Pan-cheng, W., and Xian-liang, M. 2009. Combustion characteristics of Daqing oil shale and oil shale semi-cokes. Mining Sci. Tech. 19:0380–0384.