particle gel for in-depth fluid diversion. In SPE/DOE Symposium on Improved Oil

particle gel for in-depth fluid diversion. In SPE/DOE Symposium on Improved Oil 
Recovery; Society of Petroleum Engineers SPE, 2008. 
55. Bai, B.; Li, L.; Liu, Y.; Liu, H.; Wang, Z.; You, C.: Preformed particle gel for 
conformance control: factors affecting its properties and applications. SPE Reservoir 
Evaluation & Engineering 2007, 10, 415-422. 
56. Bai, B.; Li, L.; Liu, Y.; Wang, Z.; He Liu: Preformed Particle Gel for Conformance 
Control: Factors Affecting its Properties and Applications. In SPE/DOE Symposium 
on Improved Oil Recovery; Society of Petroleum Engineers: Tulsa, Oklahoma, 
2004. 
57. Bai, B.; Liu, Y.; Coste, J.-P.; Li, L.: Preformed Particle Gel for Conformance 
Control: Transport Mechanism Through Porous Media. SPE Reservoir Evaluation & 
Engineering 2007, 10, 176-184. 
58. Bai, B.; Wei, M.; Liu, Y.: Field and Lab Experience with a Successful Preformed 
Particle Gel Conformance Control Technology. In 2013 SPE Production and 
Operations Symposium, 2013. 

204 
59. Bai, B.; Zhou, J.; Liu, Y.; Tongwa, P.: Thermo-Dissoluble Polymer for In-Depth 
Mobility Control. In IPTC 2013: International Petroleum Technology Conference, 
2013. 
60. Imqam, A. H.; Bai, B.; Delshad, M.; Sepehrnoori, K.; Wei, M.; Al Ramadan, M.: 
Preformed Particle Gel Extrusion through Open Conduits during Conformance 
Control Treatments. In SPE Improved Oil Recovery Symposium; Society of 
Petroleum Engineers, 2014. 
61. Liu, Y.; Bai, B.; Wang, Y.: Applied technologies and prospects of conformance 
control treatments in China. Oil & Gas Science and Technology–Revue d’IFP 
Energies nouvelles 2010, 65, 859-878. 
62. Seright, R.: Use of preformed gels for conformance control in fractured systems. 
SPE production & facilities 1997, 12, 59-65. 
63. Bai, B.; Li, L.; Liu, Y.; Liu, H.; Wang, Z.; You, C.: Preformed Particle Gel for 
Conformance Control: Factors Affecting Its Properties and Applications. SPE 
Reservoir Evaluation & Engineering 2007, 10, 415-422. 
64. Hua, Z.; Lin, M.; Guo, J.; Xu, F.; Li, Z.; Li, M.: Study on plugging performance of 
cross-linked polymer microspheres with reservoir pores. Journal of petroleum 
science and engineering 2013, 105, 70-75. 
65. Dawson, J. C.; Van Le, H.: Method of controlling production of excess water in oil 
and gas wells. Google Patents, 1995. 
66. F.Ghaddab; K.Kaddour; M.Tesconi; A.Brancolini; C.Carniani; G.Galli: EI Borma - 
Bright Water: A Tertiary Method for Enhanced Oil Recovery for a Mature Field. 
SPE 2010. 
67. Frampton, H.; Cheung, S. K.; Chang, K. T.: Development of a novel waterflood 
conformance control system. In SPE/DOE Symposium on Improved Oil Recovery; 
Society of Petroleum Engineers: Tulsa, Oklahoma, 2004. 
68. Wang, L.; Zhang, G.; Li, G.; Zhang, J.; Ding, B.: Preparation of microgel 
nanospheres and their application in EOR. In International Oil and Gas Conference 
and Exhibition in China; Society of Petroleum Engineers, 2010. 
69. Jia, H.; Ren, Q.; Pu, W.-F.; Zhao, J.: Swelling Mechanism Investigation of 
Microgel with Double-Cross-Linking Structures. Energy & Fuels 2014, 28, 6735-
6744. 

205 
70. Hua, Z.; Lin, M.; Dong, Z.; Li, M.; Zhang, G.; Yang, J.: Study of deep profile 
control and oil displacement technologies with nanoscale polymer microspheres. 
Journal of colloid and interface science 2014, 424, 67-74. 
71. Armanet, L.; Hunkeler, D.: Phase inversion of polyacrylamide based inverse
‐
emulsions: Effect of the surfactant and monomer on postinversion equilibrium 
properties. Journal of applied polymer science 2007, 106, 2328-2341. 
72. Chen, L.-W.; Yang, B.-Z.; Wu, M.-L.: Synthesis and kinetics of microgel in inverse 
emulsion polymerization of acrylamide. Progress in organic coatings 1997, 31, 393-
399. 
73. Shen, Y.; Zhang, X.; Lu, J.; Zhang, A.; Chen, K.; Li, X.: Effect of chemical 
composition on properties of pH-responsive poly (acrylamide-co-acrylic acid) 
microgels prepared by inverse microemulsion polymerization. Colloids and Surfaces 
A: Physicochemical and Engineering Aspects 2009, 350, 87-90. 
74. Phelps, C. H.; Strom, E. T.; Hoskin, D. H.; Mitchell, T. O.; Shu, P.: Method for 
imparting selectivity to otherwise nonselective polymer control gels. Google 
Patents, 1990. 
75. Phelps, C. H.; Strom, E. T.: Xanthan biopolymer and polyacrylamide crosslinked 
with bisacrylamide. Google Patents, 1989. 
76. Silva, M. E. S.; Dutra, E. R.; Mano, V.; Machado, J. C.: Preparation and thermal 
study of polymers derived from acrylamide. Polymer degradation and stability 2000, 
67, 491-495. 
77. Grassie, N.; McNeill, I.; Samson, J.: The thermal degradation of 
polymethacrylamide and copolymers of methacrylamide and methyl methacrylate. 
European Polymer Journal 1978, 14, 931-937. 
78. Minsk, L.; Kotlarchik, C.; Meyer, G.; Kenyon, W.: Imidization during 
polymerization of acrylamide. Journal of Polymer Science: Polymer Chemistry 
Edition 1974, 12, 133-140. 
79. Han, S.; Kim, C.; Kwon, D.: Thermal/oxidative degradation and stabilization of 
polyethylene glycol. Polymer 1997, 38, 317-323. 
80. Flory, P. J.; Rehner Jr, J.: Statistical mechanics of cross
‐
linked polymer networks II. 
Swelling. The Journal of Chemical Physics 1943, 11, 521-526. 

206 
81. Lee, K. Y.; Bouhadir, K. H.; Mooney, D. J.: Degradation behavior of covalently 
cross-linked poly (aldehyde guluronate) hydrogels. Macromolecules 2000, 33, 97-
101. 
82. Molina, M. J.; Gómez-Antón, M. R.; Piérola, I. F.: Determination of the parameters 
controlling swelling of chemically cross-linked pH-sensitive poly (N-
vinylimidazole) hydrogels. The Journal of Physical Chemistry B 2007, 111, 12066-
12074. 
83. Kizilay, M. Y.; Okay, O.: Effect of initial monomer concentration on spatial 
inhomogeneity in poly (acrylamide) gels. Macromolecules 2003, 36, 6856-6862. 
84. Baker, J. P.; Hong, L. H.; Blanch, H. W.; Prausnitz, J. M.: Effect of initial total 
monomer concentration on the swelling behavior of cationic acrylamide-based 
hydrogels. Macromolecules 1994, 27, 1446-1454. 
85. Navarrete, R.; Cawiezel, K.; Constien, V.: Dynamic fluid loss in hydraulic 
fracturing under realistic shear conditions in high-permeability rocks. SPE 
Production and Facilities 1996, 11, 138-143. 
86. Lin, M.; Zhang, G.; Hua, Z.; Zhao, Q.; Sun, F.: Conformation and plugging 
properties of crosslinked polymer microspheres for profile control. Colloids and 
Surfaces A: Physicochemical and Engineering Aspects 2015, 477, 49-54. 

207 
VITA 
Zun Chen was born in Zhengzhou, Henan province in China. She obtained her 
Bachelor Degree in Polymer Science and Engineering and Master Degree in Materialogy 
from South China University of Technology in Guangzhou, Guangdong province in 
China in 2007 and 2010. She then attended Missouri University of Science and 
Technology (formerly the University of Missouri - Rolla) in Jan. 2011, and began her 
doctoral study under the guidance of Dr. Thomas P. Schuman. Her researches focused on 
polymer synthesis and characterization. In in December 2016, she received her Ph.D 
degree in Chemistry from Missouri University of Science and Technology, Rolla, USA.