Page 42 - Gas Wettability of Reservoir Rock Surfaces with Porous Media
P. 42
26 Gas Wettability of Reservoir Rock Surfaces with Porous Media
[22] K.W. Li, H.P. Zhang, Experimental Study of Water Shut-off by Wettability Alteration to Gas
Wetness. SPE EUROPEC/EAGE Annual Conference and Exibition held in Vienna, Austria,
2011.
[23] W. Fuhua, Application of intermediate wettability in oil/gas drilling and oil recovery, Fault-
Block Oil Gas Field 12 (3) (2005) 41 43.
[24] W. Fuhua, A. Jun, W. Hui, W. Xinggui, Study on inorganic positive gel/polyol/polymer dril-
ling and completion fluid, Petrol. Drill. Tech. 33 (1) (2005) 24 27.
[25] R. Xiaojuan, L. Ning, Q. Zhihao, Z. Ningsheng, Effect of wettability alteration on the relative
permeability of low-permeability water-wet oil and gas reservoirs, Petrol. Expl. Dev. 32 (3)
(2005) 123 124.
[26] S. Xinwang, Z. Lijuan, C. Xulong, H. Jirui, Y. Xiangan, Effects of wettability on oil-water flow
characteristics, Oil Field Chem. 25 (4) (2008) 305 308.
[27] S. Xinwang, C. Haoran, C. Xulong, H. Jirui, The effects of wettability on oil recovery effi-
ciency, J. Petrochem. Univ. 22 (4) (2009) 49 52.
[28] Y. Changyu, Y. Fei, Experimental study intermediate wettability agent for decompression and
augmented injection, Inner. Mongolia Petro Chem. Ind. 24 (2009) 149 151.
[29] L. Huaizhu, L. Liangchuan, Z. Jiapeng, L. Haiwei, Wettability effect of water-oil single-phase
seepage, J. Oil Gas Tech. 32 (1) (2010) 306 308.
[30] J. Renyu, L. Min, Z. Guicai, C. Lan, W. Tao, Z Xiaoping, Research and Evaluation on One
New Resisting High Temperature and Anti-salt Acid Cleanup Addictive. Proceedings on2010
International Hydraulic Fracturing & Aciding Conference, Xian, China, August 1st, 2010.
[31] S. Huan, W. Xinmin, L. Wenbin, The effect of change of reservoir wettability on oil recovery,
Petrol. Drill. Tech. 38 (6) (2010) 92 94.
[32] F. Meilong, Z. Yuxia, Study on the effect of wettability change on improving oil recovery,
J. Oil Gas Tech. 33 (12) (2012) 128 132.
[33] Y. Liu, H. Zheng, G. Huang, et al. Improving Production in Gas/Condensate Reservoirs by
Wettability Alteration to Gas Wetness. SPE/DOE Symposium on Improved Oil Recovery,
Tulsa, Oklahoma, U. S. A., 2006.
[34] Y.J. Liu, H.W. Zheng, G.X. Huang, et al. Production Enhacement in Gas-Condensate
Reservoirs by Altering Wettability to Gas Wetness: Field Application. Tulsa, Oklahoma, 2008.
SPE112750.
[35] Y. Tongyu, L. Jishan, Y. Fengying, Effects of gas-wetting on porous flow behavior in gas-
condensate reservoirs, Oil Field Chem. 25 (2) (2008) 101 104. 125.
[36] S. Changjin, L. Zhihang, W. Xiaoyu, Pore network modeling for the investigation of factors
affecting relative permeability of low-permeability reservoirs, Nat. Gas Ind. 30 (7) (2010)
36 38.
[37] M.H. Zhou, K.W. Li, Molecular Modeling and Its Application to Developing Chemicals for
Wettability Alteration to Gas-wetness. SPE International Symposium on Oilfield Chemistry,
The Woodlands, Texas, USA, 2011.
[38] O. Chuanxiang, Z. Chenxiao, Z. Zhijun, Experimental study on wetting transition water shut-
off of horizontal well, Lithol. Reser. 23 (3) (2011) 106 109.
[39] Y. Hang, Z. Xu, Numerical simulation study on horizontal wettability alternation plugging,
J. Jianghan Petrol. Univ. Staff Workers 24 (4) (2011) 12 15.
[40] M. Dong, D. Miao, Experimental study on enhanced oil recovery with wettability alteration
to gas wetting, Fault-Block Oil Gas Field 18 (3) (2011) 386 388.
[41] H. Qiliang, Gas Productivity Enhancement by Wettability Alternation of Coalbed Methane.
Master’s thesis of Yangtze University, 2012.
[42] H. Qiliang, T. Hongyan, J. Lei, Study on gas wetting alternation in development of coalbed
methane, Neijiang Sci. Tech. 4 (2012) 30.
[43] P. Haijun, L. Jianyi, Z. Zhanzhao, Performance evaluation of new liquid lock pollution deter-
gent, Neijiang Sci. Tech. 5 (2012) 22.
[44] A. Tuteja, W. Choi, M. Ma, J.M. Mabry, S.A. Mazzella, G.C. Rutledge, et al., Science 318
(2007) 1618.
[45] M. Krasowaka, J. Zawala, K. Malysa, Air at hydrophobic surfaces and kinetics of three phase
contact formation, Adv. Colloid Interface Sci. (2009) 147 148. 155 169.
