长江科学院院报 ›› 2024, Vol. 41 ›› Issue (2): 173-180.DOI: 10.11988/ckyyb.20221138

• 工程安全与灾害防治 • 上一篇    下一篇

基于两相流的水封油库油气泄漏运移规律及控制措施

唐栋1,2, 简回香1,2, 王存利1,2, 李毅1,2, 蒋中明1,2   

  1. 1.长沙理工大学 水利与环境工程学院,长沙 410114;
    2.长沙理工大学 水沙科学与水灾害防治湖南省重点实验室,长沙 410114
  • 收稿日期:2022-09-05 修回日期:2022-11-18 出版日期:2024-02-01 发布日期:2024-02-04
  • 作者简介:唐 栋(1988-),男,湖南衡阳人,讲师,博士,主要从事水工结构及岩土工程安全评价方面的研究。E-mail: tangdong@csust.edu.cn
  • 基金资助:
    国家自然科学基金项目(52109112);湖南省自然科学基金项目(2022JJ30606);湖南省水利科技项目(XSKJ2019081-53,XSKJ2021000-25);长沙理工大学研究生科研创新项目(CX2021SS40)

Migration Law and Control Measures of Oil Vapor Leakage from Underground Oil Storage Cavern Based on Two Phase Flow

TANG Dong1,2, JIAN Hui-xiang1,2, WANG Cun-li1,2, LI Yi1,2, JIANG Zhong-ming1,2   

  1. 1. School of Hydraulic and Environmental Engineering, Changsha University of Science & Technology, Changsha 410114, China;
    2. Key Laboratory of Water-Sediment Sciences and Water Disaster Prevention of Hunan Province, Changsha University of Science & Technology, Changsha 410114, China
  • Received:2022-09-05 Revised:2022-11-18 Published:2024-02-01 Online:2024-02-04

摘要: 地下水封油库运行的关键是保持一定的水封厚度,为确定合适的水封厚度,基于气液两相流理论,采用有限元数值模拟方法,以我国某石油储备地下水封洞库为依托,模拟了地下水封石油洞库储油运行期油气的泄漏运移演变过程。结果表明:施工期不设置水幕系统情况下,洞室顶部出现了大面积的疏干区,造成后期无法储油;设置水幕系统情况下,洞库上方能够维持一定水封厚度,洞库周围岩层油气泄漏范围和泄漏量均与储油运行时间呈正幂函数关系;水封厚度越大油气泄漏范围和泄漏量越小,但过大的水封厚度会大大增加工程成本,所对应的案例在水封厚度为30 m时对油气泄漏控制最为经济合理,《地下水封石洞油库设计标准》推荐的水封厚度合理且有一定安全裕度。研究成果可为水封油库工程的设计及油气泄漏控制提供一定理论参考。

关键词: 油气泄漏, 地下水封石油洞库, 两相流, 水幕系统, 数值模拟, 水封厚度

Abstract: The key to the operation of underground water-sealed oil storage cavern is to maintain a certain thickness of water seal, which is dependent on the behavior of oil vapor migration under varying water seal depth. To determine a proper water seal depth, we developed a finite element numerical simulation method based on gas-liquid two-phase flow theory to model the evolution process of oil vapor leakage from an underground water-sealed oil storage cavern in China during its operation. Results showed that in construction stage in the absence of water curtain system, a large drainage area at the top of the cavern made oil storage inoperable. However, the construction of a water curtain system enabled the maintenance of a certain thickness of water seal above the coal seam. The range and volume of oil vapor leakage in the surrounding rock displayed positive power function correlation with operation time, with smaller leakage range and volume observed at thicker water seals. However, excessively thick water seals greatly increased engineering costs. Our study suggests an economically and reasonably safe water seal thickness of 30 m, which meets recommended standards and provides a sound basis for water-sealed oil storage cavern design and oil vapor leakage control.

Key words: oil vapor leakage, underground water-sealed oil storage caverns, two-phase flow, water curtain system, numerical simulation, thickness of water seal

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