超强吸水树脂堵漏技术研究

【作者】 狄丽丽；

【导师】 施太和；

【作者基本信息】 西南石油大学 ， 油气井工程， 2007， 硕士

【摘要】 裂缝性地层漏失是影响钻井工程安全、效率、成本甚至油气层发现和保护的一项重要因素。裂缝性地层中孔隙、裂缝、溶洞交叉存在,也会单独存在。特别是钻遇大型的溶洞或裂缝发生恶性漏失时,堵漏困难,常规堵漏材料封堵效果较差。为了确保安全钻井,提高钻井效率,降低施工成本,以及提高油气层保护效果,研究对付裂缝性地层井漏的高效堵漏材料非常必要。本文针对裂缝性地层,对比分析了目前裂缝性地层漏失常用的堵漏方法,结合国内外新型堵漏技术调研,对超强吸水树脂堵漏技术进行了研究。并根据裂缝性地层特点及其孔缝空间的分布情况,运用流体渗流理论分析了裂缝-孔隙性双重介质中流体的渗流机理,引入超强吸水树脂吸水膨胀后形成粘弹性凝胶颗粒进入漏失通道架桥和阻塞的独特性,得出超强吸水树脂用于裂缝性地层堵漏的可行性。应用非牛顿流体力学、粘弹性力学等理论,对孔喉附近的流场分布(压力的分布、速度的分布、粘度的分布等)进行三维数值模拟分析,研究了聚合物溶液在多孔介质中的流变特性。并根据单个及多个吸水树脂颗粒在多孔介质中的作用情况,解释了超强吸水树脂的堵漏机理。研究表明,超强吸水树脂溶液流动到孔喉通道处,受压产生形变,因为粘弹性效应,使孔喉处的压力损失增加,阻力增加,产生滞留,从而封堵裂缝。本文在对超强吸水树脂吸水理论、性能等研究基础上,制定了一套系统的实验方案,分别从超强吸水树脂自身性能及堵漏性能两方面展开实验研究,并考虑多种影响因素,对其封堵效果进行实验评价和分析。通过实验得出,超强吸水树脂具有很好的封堵效果,承压能力大于4Mpa。更多还原

【Abstract】 Fractured formation losses is an important factor which effects drilling engineering security,efficiency and cost,and effects the discovery and the protection of the oil&gas formation.Porosity,fracture and cavity overlapping exist in the fractured formation at the same time.and sometimes also alone.Particularly severe losses would happen when drill in the large-scale cavity or fracture.The plugging is so difficult that conventional lost circulation materials(LCM) often perform poorly.In order to ensure drilling security and efficiency,reduce constrction cost,and improve the effectiveness of the formation protection,it’s very significant to study the LCM which can deal with the fractured formation losses.Combining with the plugging technology all over the world,this paper mainly analyses plugging methods in common use for fractured losses to the fractured formation,and researches on the Super Absorbent Resin(SAR) plugging technology.According to the characteristics of the fractured formation and the distribution of the apertures spaces,this paper analyses flow mechanics in fracture-porous double porosity by penetration mechanics theory.The SAR forms to a viscoelastic gel after water swelling,and easily enters loss channels for plugging.Then we obtains the feasibility of the SAR on plugging the fractured formation.This paper analyses rheological characteristics when the polymer solution flow into the porous medium.and the flow distribution (pressure distribution,velocity distribution and viscosity distribution,etc) is studied by three-dimennsional numerical simulation with the theory of Non-Newtonian hydrodynamics,viscoelastic mechanics and so on. Combining with single-SAR and milti-SAR granule flowing into the porous media,this paper describesplugging mechanism of the SAR. The results show that the SAR solution flows into the porethroat and distorts after compressing.Because of the viscoelasticity,pressure loss whichincrease the resistance,after that,the SAR stagnates and plug the fractures.Base on the water-absorbent theory and performance,and with the systemic of experimental program,we do the experimental researches on the SAR’s own performance and plugging properties.With the consideration of a variety of factors,we evaluate and analyse on the plugging effect.The experiments show that the SAR has good plugging effectiveness and raise pressure resistance of the thief zone.The plugging strength is more than 4Mpa.更多还原