Affiliation:
1. China University of Petroleum
Abstract
In this paper, the variation of viscosity with time is studied under condition of different influencing factors such as shearing time, mass concentration, salinity and temperature. The applicable conditions are optimized as following: The optimum mass concentration, salinity and temperature through laboratory experiment is 3000 mg/L~4000 mg/L, 40000 mg/L~80000 mg/L with Ca2+under 5000 mg/L and 20 °C~60 °C respectively. Finally, anti-shearing and oil displacement experiment are carried out under laboratory conditions. The results show that the new polymer after being sheared also has the ability to self-assemble and the enhancement in oil recovery obtained in core flow experiment is higher than conventional polymer flooding, which suggests that it has a wide application prospects in tertiary oil recovery.
Publisher
Trans Tech Publications, Ltd.
Reference6 articles.
1. Bayoumi N., Kamal O. The effect of polymers on the displacement of Nubia crude oil (October field). JCPT, 1997, 36(2): 42~48.
2. Barreau P., Lasseux D., Bertin H. Polymer adsorption effect on relative permeability and capillary pressure: investigation of a pore scale scenario. SPE 37303, (1997).
3. Littmann W. Polymer flooding. Amsterdam-Oxford-New York-Tokyo: Elsevier, 1988: 3~9.
4. Chatter J. J., Borchardt J.K. Applications of Water-Soluble Polymers in the Oil Field. Journal of Petroleum Technology, 1981, (33): 2042-(2056).
5. Sorbie K.S. Polymer-Improved Oil Recovery. CRC Press, Inc., Boca Raton, Florida, USA, (1991).