美国大型地下水封石洞油气库长期稳定性试验规范概述

李鹏; 栗金东; 赵晓; 王帅; 张添; 陈彦生

doi:10.3969/j.issn.1001-5485.2014.08.0252014,31(08):127-131,136

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长江科学院院报 ›› 2014, Vol. 31 ›› Issue (8) : 127-131. DOI: 10.3969/j.issn.1001-5485.2014.08.0252014,31(08):127-131,136

地下水封石洞油库工程建设研究专栏

美国大型地下水封石洞油气库长期稳定性试验规范概述

李鹏¹,栗金东²,赵晓³,王帅¹,张添⁴,陈彦生¹

作者信息 +

Overview of Test Standards for Long-term Stability of LargeUnderground Water-sealed Cavern of Oil and Gas Storage in the US

LI Peng¹, LI Jin-dong², ZHAO Xiao³, WANG Shuai¹,ZHANG Tian⁴, CHEN Yan-sheng¹

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文章历史 +

摘要

从战略角度看,建设地下油气库有利于保障国家能源安全稳定供应,即使在战争非常时期,也可应对国际油气市场的剧烈动荡,减缓可能给国民经济带来的冲击。自1977年以来,美国加强了地下溶洞与盐穴的油气库工程建设,并重点试验研究了地下储库的长期安全稳定性,包括:①地下储库所在区域构造应力为主导的原岩地应力场测试研究;②地下储库围岩的施工期变形动静态监测;③地下储库围岩长期稳定性的现场流变试验研究;④地下储库自然与人工水封技术的试验研究;⑤围绕①至④课题进行的岩土分类、各种测试方法标准规范的编制与推广应用,促使地下储库在100 a设计生命期的安全健康。美国的这些研究成果及规范可为我国地下水封石洞油气库工程的建设提供参考与借鉴。

Abstract

From a strategic perspective, underground oil and gas storage protects the security and stability of acountry’s energy supply. Even in war, it could help deal with the upheaval of international oil and gas markets and slow down the impact on national economy. Since 1977, the United States strengthened its construction of oil and gas storage in underground karst caves and salt caverns, and did detailed experimental studies of the long-term safety and stability of the underground storages. These studies include (1) tests on the in-situ stress field of underground storage where the tectonic stress is typical; (2) static and dynamic monitoring of rock deformation of the underground storage during construction; (3) on-site rheological tests on the long-term stability of rocks in the underground storage; (4) tests of natural and artificial water-seal technology in underground storage; (5) compilation and application of standards and specifications on geotechnical classification and test methods around the subjects in (1) to (4). The studies ensured the safety and health of underground storage in the designed 100-year life time. These achievements could be taken as reference for the construction of oil and gas storage of underground water-sealed caves in China.

导出引用

李鹏,栗金东,赵晓,王帅,张添,陈彦生. 美国大型地下水封石洞油气库长期稳定性试验规范概述[J]. 长江科学院院报. 2014, 31(8): 127-131 https://doi.org/10.3969/j.issn.1001-5485.2014.08.0252014,31(08):127-131,136

LI Peng, LI Jin-dong, ZHAO Xiao, WANG Shuai,ZHANG Tian, CHEN Yan-sheng. Overview of Test Standards for Long-term Stability of LargeUnderground Water-sealed Cavern of Oil and Gas Storage in the US[J]. Journal of Changjiang River Scientific Research Institute. 2014, 31(8): 127-131 https://doi.org/10.3969/j.issn.1001-5485.2014.08.0252014,31(08):127-131,136

中图分类号： TU457 TB822

参考文献

[1] ASTM D4645—2008, Standard Test Method for Determination of the In-Situ Stress in Rock Using the Hydraulic Fracturing Method[S].
[2] ASTM D4631—1995(2000), Standard Test Method for Determining Transmissivity and Storativity of Low Permeability Rocks by In Situ Measurements Using Pressure Pulse Technique[S].
[3] ASTM D4630—1996(2008), Standard Test Method for Determining Transmissivity and Storage Coefficient of Low-Permeability Rocks by In Situ Measurements Using the Constant Head Injection Test [S].
[4] ASTM D4525—2004, Standard Test Method for Permeability of Rocks by Flowing Air [S].
[5] ASTM D4403—1984(2000), Standard Practice for Extensometers Used in Rock [S].
[6] ASTM D4535—2008, Standard Test Methods for Measurement of Thermal Expansion of Rock Using Dilatometer [S].
[7] ASTM D4612—2008, Standard Practice for Calculating Thermal Diffusivity of Rocks [S].
[8] ASTM D4553—2008, Standard Test Method for Determining In Situ Creep Characteristics of Rock [S].
[9] ASTM D4435—2008, Standard Test Method for Rock Bolt Anchor Pull Test [S].
[10]ASTM D4436—2008, Standard Test Method for Rock Bolt Long-Term Load [S].
[11]ASTM C1436—2008, Standard Specification for Materials for Shotcrete [S].
[12]ASTM C1385/C1385M—2010, Standard Practice for Sampling Materials for Shotcrete [S].
[13]ASTM C1116/C1116M—2010, Standard Specification for Fiber-Reinforced Concrete [S].
[14]ASTM D5731—2008, Standard Test Method for Determination of the Point Load Strength Index of Rock and Application to Rock Strength Classifications [S].
[15]ASTM D2487—2010, Standard Practice for Classification of Soils for Engineering Purposes (Unified Soil Classification System) [S].
[16]ASTM C938—2010, Standard Practice for Proportioning Grout Mixtures for Preplaced-Aggregate Concrete [S].
[17]LEE M Y, HAIMSON B C. Statistical Evaluation of Hydraulic Fracturing Stress Measurement Parameters[J].International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts, 1989, 26(6):447-456.
[18]CORNET F H, VALETTE B. In Situ Stress Determination from Hydraulic Injection Test Data[J]. Journal of Geophysical Research, 1984, 89(B13):11527-11537.
[19]ABERG B. Model Tests on Oil Storage in Unlined Rock Caverns[C]∥ Proceedings of the First International Symposium on Storage in Excavated Rock Caverns. Stockholm, September 5-8,1977:517-530.
[20]GOODALL D C, ABERG B, BREKKE T L. Fundamentals of Gas Containment in Unlined Rock Caverns[J]. Rock Mechanics and Rock Engineering, 1988, 21(4): 235-258.
[21]REHBINDER G, KARLSSON R, DAHLKILD A. A Study of a Water Curtain Around a Gas Store in Rock[J]. Applied Scientific Research, 1988, 45(2): 107-127.