The Size Effects of Modified Nano-Silica on the Physical Properties of Resorcinol-Poly(acrylamide-co-2-acrylamido-2-methylpropanesulfonic acid) Gels in Harsh Reservoir Conditions
Xun Zhong, Yuxuan Yang, Jiating Chen, Yudan Dong, Sheng Lei, Hui Zhao, Hong He, Lifeng Chen

TL;DR
This study explores how different sizes and concentrations of modified nano-silica affect the properties of gels used in harsh oil reservoir conditions.
Contribution
The study introduces a practical formulation of thermal and salt-tolerant gels using modified nano-silica with a systematic analysis of size and concentration effects.
Findings
GSNP-30 at 0.4 wt.% increased storage modulus by 14 times and non-freezable bound water content more than doubled.
The optimal gel system achieved over 80% plugging efficiency in high-permeability formations and enhanced oil recovery by over 25%.
GSNP improved gel stability by enhancing hydrophilicity, suppressing aggregation, and forming a uniform gel network.
Abstract
Nano-silica is widely used to enhance gel properties, but its size, concentrations, and aggregation behaviors all matter. The influencing rules of these factors remain unclear especially in harsh reservoir conditions. This study presented a comprehensive investigation into the gelation, rheological, and plugging properties of phenolic polymer gels reinforced by modified nano-silica (GSNP) of different sizes and concentrations in harsh reservoir conditions. Specifically, the nano-silica was modified with a highly soluble silane, and gel properties were evaluated through rheological, differential scanning calorimetry (DSC), and sandpack flooding tests. The results showed that the incorporation of GSNP prolonged the gelation time, enhanced gel strength, and improved stability, allowing the gelation solution to enter deeper into the formation while maintaining long-time effectiveness. The…
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Taxonomy
TopicsHydrogels: synthesis, properties, applications · Enhanced Oil Recovery Techniques · Polysaccharides Composition and Applications
