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Abstract
Polymer gel has been widely used to control excessive water production in mature oilfields. However, in view of reservoir conditions characterized by serious heterogeneous thick oil layers, high strength and in-depth propagation are required of polymer gel to achieve good treatment efficiency. Based on the concept of in-depth conformance control, a novel gel with controllable strength composed of polymer, resorcinol/hexamethylenetetramine (HMTA), acetic acid and gel strength modifier was developed. The effects of component concentrations on bulk gelation properties were investigated. The microstructures of conventional gel and novel gel at different aging time were studied by scanning electron microscopy (SEM), which can provide insight into the mechanism of controllable gel strength. Moreover, sandpack flow experiments were carried out on sandpacks (Φ2.5 × 100 cm) with multi-point pressure taps to investigate whether the novel gel can propagate in porous media. Compared with the conventional gel, SEM results showed that the three-dimensional network structure of novel gel was weakened more seriously, resulting in the decrease of gel strength. Due to decreased gel strength at different aging time, the novel gel can propagate in porous media to achieve in-depth conformance control.
GRAPHICAL ABSTRACT
ACKNOWLEDGMENT
Thanks to all individuals associated with the project.
Notes
Color versions of one or more of the figures in the article can be found online at www.tandfonline.com/ldis.