References¶
- BW92
Michael Batzle and Zhijing Wang. Seismic properties of pore fluids. Geophysics, 57(11):1396–1408, 1992.
- CT+60
RD Carter, GW Tracy, and others. An improved method for calculating water influx. Transactions of the AIME, 219(01):415–417, 1960.
- CB+01
Michael Andrew Christie, MJ Blunt, and others. Tenth spe comparative solution project: a comparison of upscaling techniques. In SPE reservoir simulation symposium. Society of Petroleum Engineers, 2001.
- DHLM08
Zhenhao Duan, Jiawen Hu, Dedong Li, and Shide Mao. Densities of the co2–h2o and co2–h2o–nacl systems up to 647 k and 100 mpa. Energy & Fuels, 22(3):1666–1674, 2008.
- DS03
Zhenhao Duan and Rui Sun. An improved model calculating co2 solubility in pure water and aqueous nacl solutions from 273 to 533 k and from 0 to 2000 bar. Chemical geology, 193(3-4):257–271, 2003.
- DP50
H Dykstra and RL Parsons. The prediction of oil recovery by waterflood, secondary recovery of oil in the united states, principles and practice. Am. Pet. Inst, 1950.
- IFC10
IFC. International formulation committee of the sixth international conference on properties of steam. 2010.
- Kil76
J. E. Killough. Reservoir simulation with history-dependent saturation functions. Society of Petrolium Engineers Journal, 16(01):37–48, 1976.
- KK+87
JE Killough, CA Kossack, and others. Fifth comparative solution project: evaluation of miscible flood simulators. In SPE Symposium on Reservoir Simulation. Society of Petroleum Engineers, 1987.
- O+81
Aziz S Odeh and others. Comparison of solutions to a three-dimensional black-oil reservoir simulation problem (includes associated paper 9741). Journal of Petroleum Technology, 33(01):13–25, 1981.
- Pea
DW Peaceman. Interpretation of well-block pressure in numerical reservoir simulation, spe paper 6893, soc. pet. Eng. J, pages 183–194.
- Sch10
Schlumberger. Eclipse technical description. 2010.
- SW96
Roland Span and Wolfgang Wagner. A new equation of state for carbon dioxide covering the fluid region from the triple-point temperature to 1100 k at pressures up to 800 mpa. Journal of physical and chemical reference data, 25(6):1509–1596, 1996.
- TL+72
MR Todd, WJ Longstaff, and others. The development, testing, and application of a numerical simulator for predicting miscible flood performance. Journal of Petroleum Technology, 24(07):874–882, 1972.