用于油井固井的水泥-聚合物复合材料

A. Chougnet, A. Audibert-Hayet, M. Moan, É. Lécolier, B. Guichard
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引用次数: 6

摘要

选择最佳胶凝材料对于维持油气井或储气井的层间隔离至关重要,这不仅适用于初次固井,也适用于弃井后的封隔。聚合物粉末/水泥复合材料具有良好的机械性能和耐久性,因为聚合物乳胶提高了硬化水泥浆的附着力和柔韧性。因此,对于腐蚀性环境下的井,聚合物粉末/水泥复合材料将是很好的选择。在井的施工过程中,水泥浆的放置在很大程度上取决于其流变特性。在本文中,我们研究了聚合物粉末/水泥复合悬浮液的流变特性:它们在振荡剪切中呈现出从凝胶到液体行为的转变。聚合物颗粒取代水泥颗粒导致凝胶状态下的储存模量降低。扫描电镜(SEM)观察到聚合物颗粒具有良好的分散性和对水泥颗粒的高亲和力。固体核磁共振(29 Si和27 Al)和量热法可以突出聚合物添加对水泥基体水化和硬化的影响。所有这些结果有助于我们了解浆液成分、流变行为和硬化材料性能之间的关系,从而使我们能够设计新的固井材料。
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Cement-Polymer Composites for Oilwell Cementing
The selection of an optimal cementitious material is critical to maintain zonal isolation for the lifetime of oil & gas or gas storage wells not only for primary cementing but also after well abandonment. Polymer powder/cement composites present good mechanical and durability properties since polymer latex promotes improved adhesion and flexibility to the hardened cement paste. So, for well constructions in aggressive environment, polymer powder/cement composites would be good candidates. During the well construction, the cement slurry placement strongly depends on its rheological behaviour. In this paper, we studied rheological properties of polymer powder/cement composite suspensions: they present a transition from a gel to a liquid behaviour in oscillatory shear. The replacement of cement particles by polymer particles induces a decrease of the storage modulus in the gel state. The good quality of the polymer particle dispersion and their high affinity for cement particles were observed by Scanning Electron Microscopy (SEM). Solid state NMR (29 Si and 27 Al) and calorimetry allowed to highlight the influence of the polymer addition on both the hydration and hardening of the cement matrix. All these results helped us to understand the relations between the slurry composition, its rheological behaviour and the properties of the hardened materials which allowed us to design new cementing materials.
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