Simulation Study Investigating the Impact of Carbon Dioxide Foam Fracturing Fluids on Proppant Transport

Mukhtar Elturki, P. McElroy, Dianfeng Li, Ahmed Kablan, Hasan Shaglouf
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引用次数: 2

Abstract

Production from unconventional reservoirs using hydraulic fractured wells has recently gained much attention due to its ability to increase recovery to high percentages. The placement of proppant in fractures plays a significant role in conductivity of fractures and well productivity. Here, we aimed to elucidate some basic concepts of the technique using FracPro simulator. FracPro and hydraulic fracturing consist of many design parameters that effect the results of the stimulation process. Of the many parameters that exist, three were focused on in this paper: proppant transport, the use of carbon dioxide (CO2) foam fracturing fluid, and the use of low specific weight versus higher specific weight. FracPro was also used to simulate the results of using a low specific gravity value of 1.9, a medium value of 2.7, and a high value of 3.5. The concentration of CO2 was also varied in each condition; concentrations of 30, 50, and 70% were used. After running investigating these scenarios, some unexpected results were obtained. Notably, a lower specific gravity should produce a longer effective proppant length; however, our data indicates shows the opposite.
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二氧化碳泡沫压裂液对支撑剂运移影响的模拟研究
由于能够将采收率提高到很高的百分比,利用水力压裂井进行非常规油藏的开采受到了广泛的关注。支撑剂在裂缝中的位置对裂缝的导流能力和油井产能起着重要的作用。在这里,我们旨在通过FracPro模拟器阐明该技术的一些基本概念。FracPro和水力压裂包括许多设计参数,这些参数会影响增产过程的结果。在众多存在的参数中,本文重点关注了三个参数:支撑剂运输、二氧化碳泡沫压裂液的使用、低比重与高比重的使用。FracPro还使用低比重值1.9、中比重值2.7和高比重值3.5来模拟结果。不同条件下CO2浓度也不同;浓度分别为30、50和70%。在对这些场景进行运行调查之后,获得了一些意想不到的结果。值得注意的是,较低的比重会产生更长的有效支撑剂长度;然而,我们的数据显示了相反的情况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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