The performance of polymer solutions in enhanced oil recovery: studies on their rheological, interfacial, and porous media behaviors
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- 作者:Jamal Aalaie (1)
Khosrow Jarrahian (1)
Saeed Ghorashi (1)
Vali Ahmad Sajjadian (1) - 关键词:Polyacrylamide ; Xanthan ; Rheology ; Zeta potential ; Interfacial tension ; Polymer flooding ; Oil recovery
- 刊名:Iranian Polymer Journal
- 出版年:2014
- 出版时间:November 2014
- 年:2014
- 卷:23
- 期:11
- 页码:827-834
- 全文大小:680 KB
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文摘
Four polymeric solutions based on xanthan, high and low molecular weight sulfonated polyacrylamides, and hydrolyzed polyacrylamide were prepared in aqueous solutions and their behaviors in enhanced oil recovery applications were investigated. The effect of thermal aging on polymer solutions was evaluated through rheological measurement. Pendant drop method was also used for measuring the interfacial tension (IFT) between crude oil and brine containing different polymer solutions. Moreover, the zeta potential of the oil reservoir particles treated with oil and polymer was determined by electrophoresis method in a nano-zeta meter instrument. In addition, sand pack and core flooding setup were used for evaluating the effectiveness of the polymer solutions in porous media. Polymer solutions displayed non-Newtonian behavior in almost the whole range of the shear rate applied; a shear thinning behavior was seen. Furthermore, the aging of polymers in formation water decreased the shear viscosity of all the polymers. The oil/water IFT decreased by the addition of polymers to water. The effect of xanthan polymer on zeta potential value was greater than that of the three acrylamide-based polymers. According to sand pack tests, by increasing the polymer concentration, the incremental oil recovery initially increased up to a polymer concentration of 3,500?ppm and then started to fall. Recovery factor increased from 50 to 65?% using the polymer solution in core flooding experiments. By increasing the injection rate from 0.2 to 3?mL/min, the injected fluid had less time to sweep the pores and consequently the amount of recovered oil decreased.