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Mechanical Properties and Flow Behavior of Polymers for Enhanced Oil Recovery
Authors:Bing Wei  Laura Romero-Zerón  Denis Rodrigue
Institution:1. Department of Chemical Engineering , University of New Brunswick , Fredericton , NB , Canada;2. Department of Chemical Engineering , Université Laval , Québec , Québec , Canada
Abstract:The mechanical properties and flow behavior in porous media of three different polymer systems including a hydrophobically modified acrylamide-based copolymer (HMSPAM), a partially hydrolyzed polyacrylamide (HPAM), and a polysaccharide (xanthan gum) were evaluated to establish their functional differentiation as mobility control agents in enhanced oil recovery (EOR). The rheological properties of the polymers were described by the power-law model to investigate their non-Newtonian behavior. The first normal stress difference (N1) and Weissenberg number (We) were also used to compare their elastic properties. The experimental results showed that, at comparable shear viscosity, HMSPAM exhibited significant elasticity compared to HPAM and xanthan gum. Shear resistance tests indicated that all of the polymers experienced an extra stress when converging into a capillary tube due to the “entrance effect.” Xanthan gum was the most mechanically stable polymer. Moreover, HMSPAM showed the superior reformability which was quantified by the regained viscosity with relaxation time. This could be explained by the rapid re-association of the hydrophobic interactions. Sandpack flood tests indicated that HMSPAM rendered extremely high mobility control ability during polymer flooding suggesting its potential in EOR. However, this polymer also experienced significant retention within the porous media (potential injectivity and plugging problems), which may be attributed to the formation of bulky associative polymer networks. In this work, UV spectrometry was employed to monitor the concentration of the produced polymer solutions and quantify the polymer retention within porous media. This analytical approach offers great reliability and simplicity. It was concluded that the use of a particular polymer system depends on the oil reservoir conditions and the target EOR application.
Keywords:elasticity  enhanced oil recovery (EOR)  hydrophobic modified polymers  mechanical stability  polyacrylamides  polymer  rheological properties  salinity tolerance  screening criteria of EOR polymers  xanthan gum
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