Visualization Experimental Investigation on Flow Regulation and Oil Displacement Characteristics of Gel Foam in Fractured-Vuggy Carbonate Reservoirs

IF 3.7 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
ACS Omega Pub Date : 2024-09-19 DOI:10.1021/acsomega.4c05686
Yingda Yang, Gen Rong, Yan Xin, Yongjin Song, Binfei Li
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Abstract

Fractured-vuggy reservoirs experience severe channeling during water and gas injection operations, and conventional foam shows weak regeneration capabilities in large-scale fracture spaces, thus failing to effectively seal them. Gel foam combines the advantages of both foam and gel, significantly enhancing the foam’s stability and showing good suitability in fractured-vuggy reservoirs. In this article, the plugging and flow regulation properties of gel foam in fractures were studied through fracture displacement experiments. The dynamic plugging capability of gel foam was superior to that of ordinary foam, and its plugging effect was significantly influenced by the fracture opening. Gel foam had strong retention capacity in fractures, and after plugging large-opening fractures, the diversion rate of small-opening fractures was increased by at least 83.3 times during subsequent parallel water flooding, making the flow regulation effect remarkable. Through the oil displacement experiments in typical fractured-vuggy models, the profile control law and enhanced oil recovery performance of gel foam under different fractured-vuggy structures were studied. In the regular fractured-vuggy network, gel foam adhered to occupy the fractured-vuggy space for plugging and controlled the top gas migration direction to synergistically drive the recovery of remaining oil, ultimately achieving a recovery of 95%. In the combination of fractures and irregular vugs, due to the density, gel foam continuously pushed down and right along the fractures to the vugs, pushing the crude oil and formation water in the vugs to migrate to the production well. The recovery of the gel foam flooding stage was as high as 48%, and the final recovery reached 93.5; only a small amount of shielded remaining oil was difficult to drive. The research results are of great significance to the application of gel foam in enhancing oil recovery in fractured-vuggy reservoirs.

Abstract Image

凝胶泡沫在断裂岩性碳酸盐岩储层中的流动调节和石油位移特性的可视化实验研究
在注水和注气作业中,裂缝-凹陷储层会出现严重的通道,而传统泡沫在大规模裂缝空间的再生能力较弱,因此无法有效封堵裂缝。凝胶泡沫结合了泡沫和凝胶的优点,大大提高了泡沫的稳定性,非常适合裂缝凹陷储层。本文通过裂缝位移实验研究了凝胶泡沫在裂缝中的堵塞和流量调节性能。凝胶泡沫的动态堵塞能力优于普通泡沫,其堵塞效果受裂缝开口的影响较大。凝胶泡沫在裂缝中具有很强的滞留能力,堵塞大开口裂缝后,在随后的平行水淹过程中,小开口裂缝的分流率至少提高了 83.3 倍,调流效果显著。通过典型断裂-岩浆模型的排油实验,研究了不同断裂-岩浆结构下凝胶泡沫的剖面控制规律和提高采油性能的方法。在规则断裂-岩浆网络中,凝胶泡沫粘附占据断裂-岩浆空间进行堵塞,并控制顶部气体迁移方向,协同驱动剩余油的采收,最终实现了95%的采收率。在裂缝与不规则凹井的组合中,由于密度大,凝胶泡沫沿着裂缝不断向下、向右推移到凹井,推动凹井中的原油和地层水向生产井迁移。凝胶泡沫水淹阶段的采收率高达 48%,最终采收率达到 93.5,只有少量被屏蔽的剩余油难以驱出。该研究成果对于应用凝胶泡沫提高裂缝-岩浆油藏的采收率具有重要意义。
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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来源期刊
ACS Omega
ACS Omega Chemical Engineering-General Chemical Engineering
CiteScore
6.60
自引率
4.90%
发文量
3945
审稿时长
2.4 months
期刊介绍: ACS Omega is an open-access global publication for scientific articles that describe new findings in chemistry and interfacing areas of science, without any perceived evaluation of immediate impact.
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