A rheophysical study of the non-newtonian behavior of water flow in thin channels

Q3 Engineering
F. Veliyev, A. Aslanova
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引用次数: 0

Abstract

The development of low-permeable hydrocarbon reservoirs is becoming an increasingly urgent task, and therefore, the study of the laws of fluid movement in subcapillary pores and microcracks is a crucial scientific and technical problem. The previous experimental studies revealed that a viscous liquid during flow in low-permeable reservoirs exhibits an anomalous non-Newtonian character, accompanied by a violation of the linearity of the filtration process, and, consequently, Darcy's law. It was also established that starting from a certain critical size of the opening of the crack, the flow of a Newtonian fluid (water, viscous oil) becomes non-Newtonian, with the manifestation of an initial pressure gradient and flow locking. In this research work, rheophysical aspects of the non-Newtonian behavior of water during flow in thin rectangular channels are considered experimentally. Using the microchannel model, it is established that the nonlinear rheological effect in the flow of water in micro-slits is mainly caused by the value of the electrokinetic potential of the system, by reducing of which it is possible to significantly weaken the non-Newtonian nature of the fluid. To regulate the electrokinetic potential of the fluid system, an antistatic additive was used, the optimal concentration of which was established experimentally. The optimal concentration is defined to be 0.006 %. Based on the Bingham model, the rheological parameters of water flow were estimated at different micro-slit clearances changed in the range of 10÷25 micrometers, in the absence and presence of an antistatic additive. It is also established that a reduction in the electrical potential of the fluid flow leads to a significant decrease in the yield shear stress during the flow of water in the microchannel
细水道中水流非牛顿流体行为的流变物理研究
开发低渗透油气藏的任务日益紧迫,因此,研究液体在毛细管下孔隙和微裂缝中的运动规律是一个至关重要的科学和技术问题。以往的实验研究表明,粘稠液体在低渗透储层中流动时表现出反常的非牛顿特性,并伴随着过滤过程的线性违反,因此也违反了达西定律。研究还发现,从裂缝开口的某一临界大小开始,牛顿流体(水、粘性油)的流动就变成了非牛顿流体,表现为初始压力梯度和流动锁定。在这项研究工作中,通过实验研究了水在矩形细通道中流动时的非牛顿流体行为的流变物理方面。利用微通道模型确定了水在微缝中流动的非线性流变效应主要是由系统的电动势值引起的,通过降低电动势值可以显著削弱流体的非牛顿性质。为了调节流体系统的电动势,使用了一种抗静电添加剂,其最佳浓度是通过实验确定的。最佳浓度为 0.006%。根据宾厄姆模型,估算了在不使用和使用抗静电添加剂的情况下,不同微缝间隙在 10-25 微米范围内变化时的水流流变参数。研究还证实,水在微通道中流动时,流体流动的电势降低会导致屈服剪切应力显著降低
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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