岩土力学 ›› 2025, Vol. 46 ›› Issue (9): 2907-2928.doi: 10.16285/j.rsm.2024.0304CSTR: 32223.14.j.rsm.2024.0304

• 岩土工程研究 • 上一篇    下一篇

裂隙及水幕影响下的水封洞库油品运移范围研究

王邺1,王述红1,张泽2,韩博文1,杨润生1   

  1. 1. 东北大学 资源与土木工程学院,辽宁 沈阳 110819;2. 内蒙古工业大学 新能源学院,内蒙古自治区 呼和浩特 010051
  • 收稿日期:2024-03-12 接受日期:2024-11-27 出版日期:2025-09-10 发布日期:2025-09-05
  • 通讯作者: 王述红,男,1969年生,博士,教授,博士生导师,主要从事岩土工程相关的教学和科研工作。E-mail: shwangneu@126.com
  • 作者简介:王邺,男,2000年生,博士研究生,主要从事岩土工程渗流及稳定性分析方面的研究。E-mail: yewangneu@126.com
  • 基金资助:
    国家自然科学基金项目(No.U1602232);辽宁省重点科技项目(No.2024021200-JH2/1021)

Range of oil transportation in water-sealed cave reservoirs under the influence of fractures and water curtains

WANG Ye1, WANG Shu-hong1, ZHANG Ze2, HAN Bo-wen1, YANG Run-sheng1   

  1. 1. School of Resources and Civil Engineering, Northeastern University, Shenyang, Liaoning 110819, China; 2. School of Renewable Energy, Inner Mongolia University of Technology, Hohhot, Inner Mongolia Autonomous Region 010051, China
  • Received:2024-03-12 Accepted:2024-11-27 Online:2025-09-10 Published:2025-09-05
  • Supported by:
    This work was supported by the National Natural Science Foundation of China (U1602232) and the Key Science & Technology Projects of Liaoning Province (2024021200-JH2/1021).

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摘要: 水封洞库裂隙围岩结构复杂,存在无法准确探明的地下水不饱和区,是引起库中油品泄漏,造成地下水污染的主要原因。为确定岩体中石油的泄漏运移范围,以辽宁某地下水封石油洞库为背景,基于孔隙−裂隙双重介质模型,以数值模拟方法分析了水幕系统对油品运移范围的影响,并通过裂隙倾角、开度、裂隙渗透率等因素评估了裂隙的几何效应对油品运移范围的影响。研究表明:水幕系统的加设无法完全杜绝库内油品的泄漏,但相比无水幕时,加设完整水幕系统后的50 a内油品泄漏距离被稳定控制在2.20 m左右,泄漏面积、最大泄漏距离和扩散速度也分别降低了69.11%、80.40%、81.05%。各水幕工况中仅加设水平水幕时泄漏面积最大,各工况中最大距离泄漏点均位于洞间岩柱区域(左右相邻洞室中间相夹的区域)。近场裂隙的存在会影响油品运移的空间分布,可减小其与洞库相交区域的泄漏面积。油品竖向最大运移距离与近场裂隙的倾角成正相关,油品泄漏范围随裂隙渗透率的增加呈先增加后下降的趋势,裂隙开度对油品运移范围的影响可忽略不计。研究结果可为水封石油洞库的设计和运营提供理论参考。

关键词: 水封石油洞库, 围岩裂隙, 水幕系统, 运移范围

Abstract: The complex geological structure of the fractured rock surrounding a water-sealed cavern reservoir and the presence of an unsaturated zone of an inaccessible unsaturated zone of groundwater are the primary causes of oil leakage, leading to groundwater contamination. To evaluate the scope of oil leakage and its transport within the rock body, the impact of the water curtain system on oil transport was numerically analyzed using the pore-fracture dual medium model in a subterranean water-sealed oil cavern reservoir located in Liaoning Province, China. The geometric effects of fractures on oil transport were evaluated through the fracture’s inclination angle, degree of openness, and permeability. The study revealed that while the water curtain system could not entirely prevent oil leakage, but compared with no water curtain, it significantly reduces environmental impacts. Over a 50-year period, leakage distance remained stable at 2.20 m, with corresponding 69.11%, 80.40%, and 81.05% reductions in leakage area, maximum migration distance, and migration rate, respectively. The leakage area is maximized only when a horizontal water curtain is added, with the maximum leakage point in each condition occurring in the rock column between the caves (the area between the right and left adjacent chambers, as defined below). The presence of near-field fissures influences the spatial distribution of oil transport, with the leakage area reduced in the intersection zone with the cave reservoir. The maximum vertical oil transport distance is positively correlated with the inclination angle of near-field fissures. The oil leakage range initially increases and then decreases with increasing fracture permeability, while the fracture aperture has a negligible impact on the oil transport range. The study’s findings provide theoretical guidance for the operational design of water-sealed oil cavern reservoirs.

Key words: water-sealed petroleum caverns, surrounding rock fractures, water curtain systems, migration range

中图分类号: TE822
[1] 马秀媛 ,张 立 ,苏 强 ,惠 冰 ,王者超 ,薛翊国 ,李术才,. 大型地下水封石油洞库水幕系统优化设计研究[J]. , 2016, 37(3): 776-782.
[2] 张龙云 ,张强勇 ,李术才 ,薛翊国 ,王者超 ,杨尚阳 , . 基于流固耦合的围岩后注浆对大型水封石油洞库水封性影响分析[J]. , 2014, 35(S2): 474-480.
[3] 平 洋,王者超,李术才,薛翊国,张 立. 裂隙随机分布条件下地下石油洞库水封性评价[J]. , 2014, 35(3): 811-819.
[4] 李术才,张 立,马秀媛,薛翊国,王者超,李逸凡,平 洋,姜彦彦. 大型地下水封石油洞库渗流场时空演化特征研究[J]. , 2013, 34(7): 1979-1986.
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