References
- Xia, H.; Yue, X.-A.; Wang, D.; Li, Q.; Zhang, X. Prediction of IPR Curve of Oil Wells in Viscoelastic Polymer Solution Flooding Reservoirs. Presented at the SPE Asia Pacific Improved Oil Recovery Conference, Kuala Lumpur, Malaysia, Oct 6–9, 2001. DOI:10.2118/72122-MS.
- Yue, X.; Zhang, L.; Liu, Z. Viscoelastic Flow and Microscopic Displacement Mechanism of Polymer Solution in Reservoir Pores. Oil Gas Recov. Technol. 2002, 03, 4–6, +5. DOI:10.13673/j.cnki.cn37-1359/te.2002.03.002
- Masuda, Y.; Tang, K.-C.; Miyazawa, M.; Tanaka, T. 1D Simulation of Polymer Flooding Including the Viscoelastic Effect of Polymer Solution. SPE Reserv. Eng. 1992, 7, 247–252. DOI:10.2118/19499-PA.
- Ranjbr, M.; Rupp, J.; Pusch, G.; Meyn, R. Quantification and Optimization of Viscoelastic Effects of Polymer Solutions for Enhanced Oil Recovery. Presented at SPE/DOE Enhanced Oil Recovery Symposium, Tulsa, USA, April 22–24, 1992. DOI:10.2118/24154-MS.
- Meng, L.; Kang, W.; Zhou, Y.; Wang, Z.; Liu, S.; Bai, B. Viscoelastic Rheological Property of Different Types of Polymer Solutions for Enhanced Oil Recovery. J. Cent. South Univ. Technol. 2008, 15, 126–129. DOI:10.1007/s11771-008-0330-2.
- Mitchell, J.; Lyons, K.; Howe, A. M.; Clarke, A. Viscoelastic Polymer Flows and Elastic Turbulence in Three-Dimensional Porous Structures. Soft Matter 2016, 12, 460. DOI:10.1039/C5SM01749A.
- Wu, Y.; Fang, S.; Dai, C.; Sun, Y.; Fang, J.; Liu, Y.; He, L. Investigation on Bubble Snap-off in 3-D Pore-Throat Micro-Structures. J. Ind. Eng. Chem. 2017, 54, 69–74. DOI:10.1016/j.jiec.2017.05.019.
- Vaithianathan, T.; Collins, L.-R. Numerical Approach to Simulating Turbulent Flow of a Viscoelastic Polymer Solution. Comput. Phys. 2003, 187, 1–21. DOI:10.1016/S0021-9991(03)00028-7.
- Tamano, S.; Itoh, M.; Takagi, A.; Yokota, K. Vortex Shedding in Confined Swirling Flows of Polymer Solutions with a Partially Rotating Disc. Presented at The XV International Congress on Rheology: The Society of Rheology 80th Annual Meeting, Monterey, USA, Aug 3–8, 2008. DOI:10.1063/1.2964642.
- Tamano, S.; Itoh, M.; Sasakawa, A.; Yokota, K. PIV Measurement of Secondary Flow in Curvilinear Pipe Flow of Polymer Solution (Fluids Engineering). Trans. Japan Soc. Mech. Eng. B 2009, 75, 2115–2121. DOI:10.1299/kikaib.75.759_2115.
- Xu, K.; Liang, T.; Zhu, P.-X.; Qi, P.-P.; Lu, J.; Huh, C.; Balhoff, M.-T. A 2.5-D Glass Micromodel for Investigation of Multi-Phase Flow in Porous Media. Lab Chip 2017, 17 (17), 640–646. DOI:10.1039/C6LC01476C.
- Morais, A. F.; Seybold, H.; Herrmann, H.-J.; Andrade Jr., J.-S. Non-Newtonian Fluid Flow through Three-Dimensional Disordered Porous Media. Phys. Rev. Lett. 2009, 103, 194502. DOI:10.1103/PhysRevLett.103.194502.
- Rodd, L.-E.; Cooper-White, J.-J.; Boger, D.-V.; McKinley, G.-H. Role of the Elasticity Number in the Entry Flow of Dilute Polymer Solutions in Micro-Fabricated Contraction Geometries. J. Non-Newtonian Fluid Mech. 2007, 143, 170–191. DOI:10.1016/j.jnnfm.2007.02.006.
- Kamble, S. S.; Ziyad, D.-S.; Kalra, M. S. Friction Factors in Fully Developed MHD Laminar Flows for Oblique Magnetic Fields and High Hartmann Numbers in Rectangular Channels. IEEE Trans. Plasma Sci. 2017, 99, 1–8. DOI:10.1109/TPS.2017.2765329.
- Singh, R.; Singh, R.; Kaw, P.; Diamond, P.; Nordman, H. Symmetry Breaking Effects of Density Gradient on Parallel Momentum Transport: A New ρs* Effect. Phys. Plasmas 2012, 19, 115016. DOI:10.1063/1.3672518.