Numerical Study on Particle Transport and Placement Behaviors of Ultralow Density Particles in Fracture-Vuggy Reservoirs

IF 1.4 4区工程技术 Q2 ENGINEERING, PETROLEUM

Spe Production & Operations Pub Date : 2022-02-01 DOI:10.2118/209193-pa

Tao Zhang, Haoran Gou, Kefan Mu, Jianchun Guo, Ruoyu Yang, Ming Li

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引用次数: 0

Abstract

A solid/liquid two-phase flow numerical model based on the computational fluid dynamics-discrete element method (CFD-DEM) model was established to study the transport and settlement law of ultralow-density (ULD) particles during the waterdrive channel adjustment of the Tahe carbonate fractured-vuggy reservoir. The mass, momentum, and turbulence equations of the fluid phase were established in Euler coordinates, whereas the particle motion equations were established based on Newton’s second law. The interaction between the ULD particles was described using a soft sphere model, and the water and particle phases were bidirectionally coupled. Meanwhile, virtual experiments were conducted to calibrate the contact parameters of the particles, and parallel plate experiments were performed to validate the model. Using numerical simulations of particle transport behavior in fractures, the process and characteristics of particle transport and placement in fractures are demonstrated, which can be described by the settlement profile angle and equilibrium gap height. According to parameterized simulations, the change law of the settlement profile angle and equilibrium gap height with different parameters such as particle size, pump displacement, and fracture width are demonstrated, which is helpful for the prediction of migration and accumulation of ULD particles in fracture-vuggy reservoirs.

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裂缝性Vuggy油藏中超低密度颗粒输运和分布特性的数值研究

基于计算流体力学离散元法（CFD-DEM）模型，建立了一个固液两相流数值模型，研究了塔河碳酸盐岩缝洞油藏水驱通道调整过程中超低密度（ULD）颗粒的输送和沉降规律。流体相的质量、动量和湍流方程是在欧拉坐标系下建立的，而粒子运动方程是基于牛顿第二定律建立的。使用软球模型描述ULD颗粒之间的相互作用，水相和颗粒相是双向耦合的。同时，进行了虚拟实验来校准颗粒的接触参数，并进行了平行板实验来验证模型。通过对裂缝中颗粒传输行为的数值模拟，展示了颗粒在裂缝中传输和放置的过程和特征，可以用沉降剖面角和平衡间隙高度来描述。通过参数化模拟，揭示了沉降剖面角和平衡间隙高度在粒径、泵排量和裂缝宽度等不同参数下的变化规律，有助于预测缝洞储层中ULD颗粒的迁移和聚集。

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来源期刊

Spe Production & Operations 工程技术-工程：石油

CiteScore

3.70

自引率

8.30%

发文量

审稿时长

3 months

期刊介绍： SPE Production & Operations includes papers on production operations, artificial lift, downhole equipment, formation damage control, multiphase flow, workovers, stimulation, facility design and operations, water treatment, project management, construction methods and equipment, and related PFC systems and emerging technologies.