• 论文
主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
高温高压非常规储层渗透率脉冲法测量及分析
  • Title

    Analysis of measurement error of permeability pulse method for high temperature and high pressure unconditional reservoirs

  • 作者

    李奇高树生刘华勋叶礼友安卫国朱文卿张杰杨懿

  • Author

    LI Qi,GAO Shusheng,LIU Huaxun,YE Liyou,AN Weiguo,ZHU Wenqing,ZHANG Jie,YANG Yi

  • 单位

    中国科学院大学中国科学院渗流流体力学研究所中国石油勘探开发研究院渗流所

  • Organization
    University of Chinese Academy of Sciences;Department of Porous Flow and Fluid Mechanics,Chinese Academy of Sciences;Department of Porous Flow and Fluid Mechanics,Petro China Research Institute of Petroleum Exploration & Development
  • 摘要

    随着超深层致密砂岩气藏页岩气藏等非常规气藏的大规模开发非常规储层渗透率测试 难度大时间长精度低等问题逐渐凸显。 为提高在高温高压条件下测量储层岩石渗透率的准确 性依据高压脉冲渗透率测试原理假设一维可压缩流体且高压下岩石具有可压缩性优化求解过 程并推导出高压脉冲渗透率完整且实用的表达形式;考虑储层高温高压地层环境设计并开展高温 高压脉冲渗透率测试实验。 提出压差保持程度概念用以揭示压力脉冲衰减不同时段的变化特征。 开展了高压脉冲渗透率与孔隙压力压差保持程度标准克氏渗透率以及常规脉冲渗透率的误差分 析研究。 结果表明:压差保持程度在20%~50%的压差衰减实验数据可准确计算岩样的脉冲渗透 率。 保持有效应力不变不同渗透率范围的岩样所受高孔隙压力的影响不同。 高压脉冲渗透率与 其他渗透率相比更加接近实际高温高压地层环境下的岩石渗透率。 该渗透率测试方法快捷准 确具有其独特的优势是深层非常规气藏储层物性测试评价的有效手段


  • Abstract

    With the large⁃scale development of ultra⁃deep tight sandstone gas reservoirs,shale gas reservoirs and other unconventional gas reservoirs,the problems of unconventional reservoir permeability testing have been gradually high⁃ lighted,such as difficulty,long time and low precision. In order to improve the accuracy of measuring reservoir rock permeability under the conditions of high temperature and high pressure,this paper,based on the principle of high⁃ pressure pulse permeability testing,assumed the reservoir as one⁃dimensional compressible fluid,and the rock is com⁃ pressible under high pressure. This paper optimized the control equation solution process, and deduced an im⁃ proved complete and practical expression of high pressure pulse permeability. Considering a high⁃temperature and high⁃pressure formation environment of the reservoir,the pulse permeability test experiment of high temperature and high pressure was designed and carried out. The concept of pressure difference retention degree was proposed for the first time to reveal the variation characteristics of pressure pulse decay in different periods. The error analysis of high⁃pressure pulse permeability and pore pressure,pressure difference retention degree,conventional Klinkenberg permeability,and conventional pulse permeability were carried out. The results show that the experimental data of pres⁃ sure difference decay can be used to accurately calculate the pulse permeability of rock samples with pressure differ⁃ ence retention degree ranging from 20% to 50%. The effective stress remains unchanged,the rock samples with differ⁃ ent permeability ranges are affected differently by high pore pressure. Compared with other permeability,the high⁃pres⁃ sure pulse permeability is closer to the actual permeability of the rock under the high⁃temperature pressure formation environment. This permeability testing method is fast and accurate,and has its unique advantages,which is an effec⁃ tive method for testing and evaluating the physical properties of deep unconventional gas reservoirs.


  • 关键词

    非常规气藏高温高压地层高压脉冲渗透率测试脉冲渗透率压差保持程度

  • KeyWords

    unconventional gas reservoirs;high⁃temperature and high⁃pressure formation;high⁃pressure pulse permea⁃ bility testing;pulse permeability;the pressure difference retention degree

  • 引用格式
    李奇,高树生,刘华勋,等. 高温高压非常规储层渗透率脉冲法测量及分析[J].煤炭学报,2022,47(S1): 184-195.
  • Citation
    LI Qi, GAO Shusheng, LIU Huaxun, et al. Analysis of measurement error of permeability pulse method for high temperature and high pressure unconditional reservoirs[J]. Journal of China Coal Society,2022,47(S1): 184-195.
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主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会

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