井筒到裂缝支撑剂充填流体流变学

David Dogon, Michael Golombok
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引用次数: 25

摘要

研究了新型油藏工程驱替液(十六烷基三甲基溴化铵和水中水杨酸钠)作为压裂过程中支撑剂放置的候选剂。无需额外的交联剂、破胶剂或与碳氢化合物接触来改变粘度。这些材料具有受流动支配的粘弹性响应。研究了两种流体成分与相似基础粘度的牛顿流体的关系,以确定剪切诱导结构(SIS)如何影响裂缝近井区域的流动特性。在库埃特流中,流体在一个离散的剪切状态下表现为剪切增厚和变薄。在微流体装置中的拉伸流动测试显示,其流动阻力高达牛顿流体的25倍。这种额外的流动阻力是由于诱导胶束间网络造成的,并且在通过射孔注入后具有改善支撑剂携带性的潜在应用。粒子图像测速技术用于观察裂缝的入口流动。随着通过射孔的流量增加,不稳定性降低。零剪切黏度与最大黏度响应之间的黏度对比决定了额外支撑剂承载能力。
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Wellbore to fracture proppant-placement-fluid rheology

Novel reservoir engineering displacement fluids (cetyltrimethylammonium bromide and sodium salicylate in water) are examined as candidates for proppant placement during fracturing. The need for additional crosslinkers, breakers or contact with hydrocarbons to change the viscosity is eliminated. These materials have a viscoelastic response governed by flow. Two fluid compositions are investigated in relation to Newtonian fluids of similar base viscosity to determine how shear induced structures (SIS) influence flow properties in the near-wellbore region of a fracture. In Couette flow, the fluid displays shear thickening and thinning within a discrete shear regime. Extensional flow tests in a microfluidic device reveal a flow resistance up to 25 times higher than Newtonian fluids. This extra flow resistance is due to an induced intermicellar network and has potential application for improved proppant carrying after injection via a perforation. Particle image velocimetry is used to visualise the entrance flow in a fracture. Instabilities are reduced as flow through the perforation increases. The viscosity contrast ratio between zero-shear viscosity and maximum viscosity response determines the extra proppant carrying capacity.

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