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areas.[22] Polyacrylamide (PAM) hydrogels are one of the most important hydrogels
used in these areas.
In enhancing oil recovery (EOR) applications, PAM hydrogels have become a
commonly utilized plugging agent/diverting agent toward conformance control, which is
ascribed
to their relatively low cost, non-toxicity and biological inertness, long polymer
chain length and high molecular mass, stability of mechanical and morphological
properties, and ability to customize their properties.[23, 24] Bai et al. has researched [21,
25-28] polyacrylamide preformed particle gels (PPG). Lab and field experimental results
support use of PPG treatments as cost-effective methods for treating permeability and
flow heterogeneity issues in petroleum reservoirs with fractures or void space channels,
each of which are widely found in mature water-flooded oil fields.[19, 29]
Under
stimuli of acid or salinity, on the one hand, PAM hydrogels display
dramatic shrinkage in size due to ion shielding effects.[30, 31] On the other hand, highly
swollen PAM hydrogels are generally brittle since they are lack of an efficient energy
dissipation mechanism arising from an irregular distribution of crosslinking points.[32,
33] These drawbacks have limited PAM hydrogels’ applications under some
circumstances. Improving the mechanical properties of PAM
hydrogels is one potential
means to expand their application. Compared to PAM gels, PVA hydrogels are another,
inexpensive material which has low toxicity, good bio-compatibility[34] but lower
hydrophilicity. Most importantly, PVA has better resistance to pH-changes,
salinity,
temperature and higher mechanical strength capability. When incorporated into other
polymer hydrogels, PVA has the capability to improve their mechanical properties [35]
as an environmentally friendly modifier. PVA has been incorporated into PAM hydrogels
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to make PAM/PVA composition, and achieved improvements in acid and salt- resistance
as well as mechanical strength, demonstrating that PVA hydrogels can function well in
harsh acidic or briny environments.[36-38]
Two methods have been reported to incorporate PVA into hydrogel polymer
networks: (1) Polymerizing or crosslinking water soluble
monomers or polymers in PVA
solution.[39, 40] In this method, water soluble monomers or polymers and their
crosslinker were dissolved in linear PVA solution and an in-situ polymerization and
crosslinking reaction results after adding initiator. The synthesis is a physical mixing
initially that, through polymerizing and crosslinking acrylamide, incorporates linear PVA
into a gel matrix[41] without further crosslinking as semi-interpenetrating networks or
semi-IPN.[42] (2) Polymerizing or crosslinking water soluble
monomers or polymers in
PVA solution, following by a freeze-thaw associative crosslinking of PVA.[43, 44]
Compared to the first network example, the freeze thaw method provided a second
network via creating hydrogen bonds as associative crosslinking points between PVA
polymer chains. The associative IPN was stable in moderate temperature or shear
environments due to disruption of hydrogen bonding under elevated temperature
(45~55 ͦC) or shear.[45, 46] When these stimuli are applied, the associative crosslinking
points may dissociate to form a semi-IPN. For semi-IPN PVA could be released into the
environmental aqueous solution.
In
this experimental study, a series of PVA/PAM IPN hydrogels containing
various amounts of PVA were prepared by in situ free radical solution polymerization of
AM and MBAM, as well as a chemical crosslinking of PVA by glutaraldehyde [47,48].
Production of the IPN versus a semi-IPN entanglement[41] or associative hydrogen
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bonding crosslink, by covalent bonding between PVA polymer chains should provide a
more stable network under aqueous swelling and shear. An IPN of PAM and PVA is
intended to improve the mechanical properties of the swollen three dimensional IPN.
The swelling performance of the hydrogels as a function
of salt concentration and
different pH were measured. Rheological and mechanical properties are determined and
discussed.
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