References
- Chen, Y., Wang, Y., Lu, J., and Wu, C. 2009 The viscosity reduction of nano-keggin-K3PMo3O40 in catalytic aquathermolysis of heavy oil. Fuel 88:1426–1434.
- Ettefaghi, E., Ahmadi, H., Rashidi, A., Mohtasebi, S., and Alaei, M. 2013. Experimental evaluation of engine oil properties containing copper oxide nanoparticles as a nanoadditive. Int. J. Ind. Chem. 4:28.
- Fan, H., Li, Z. B., and Liang, T. 2006. Experimental study on using ionic liquids to upgrade heavy oil. J. Fuel Chem. Technol. 35:32−35.
- Hamedi Shokrlu, Y., and Babadagli, T. 2010. Effect of nano sized metals on viscosity reduction of heavy oil/bitumen during thermal applications, CSUG/SPE 137540. Presented at the Canadian Unconventional Resources & International Petroleum Conference, Calgary, Alberta, Canada. 19–21. October, 2010
- Hascakir, B., Babadagli, T., and Akin, S. 2008. Experimental and numerical modeling of heavy oil recovery by electrical heating, SPE 117669. International Thermal Operations and Heavy Oil Symposium, Calgray, Canada.20–23. October, 2008
- Li, W., Zhu, J., and Qi, J. 2007. Application of nano-nickel catalyst in the viscosity reduction of Liaohe extra-heavy oil by aqua-thermolysis. J. Fuel Chem Technol. 35:176–180.
- Operating and maintenance manual of Steam flood, Apparatus COREXPORT, The equipment seeds subsidiary of core laboratories, 1221 profit drive, Dallas, Texas, P. O box 152053. 1990.
- Operating and maintenance manual of DBR Sand-Alone EM viscometer system, DB Robinson design and manufacturing Ltd. Edminston, Alberta, Canada. 2000. Available at: http://www.dbra.com.