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CT扫描技术在低渗透砂岩岩心试验中的应用 被引量:22

Application of computed tomography scanning technology in low-permeability sandstone core test
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摘要 CT扫描技术能够观测到岩心内部的结构变化情况,在碳酸盐岩岩心试验应用较多。以低渗透砂岩岩心为基础进行CT扫描分析,首先分析CT技术的基本原理,然后按照一定的方法和步骤对某区块气层岩心进行试验,最后按照CT扫描步骤进行扫描分析,并从3个方面对岩心进行分析:干岩心的CT数、岩心的孔隙度及分布特征、力学试验前后的CT扫描。由试验结果可以观察到,岩心越致密,其CT数值相对就越大;CT试验分析的岩心孔隙度值同测量值非常接近;岩心在受力条件下破裂,其裂纹呈现多样化特点。试验结果认为,CT扫描能够判断岩心的致密程度,并且能够确定岩心的孔隙度值,同时能够观察岩心破裂后的裂缝变化情况,便于低渗透岩心裂缝扩展的研究。 Computed Tomography(CT),by which the internal change of core scan can be observed,is used more often in carbonate core test.On the basis of low-permeability sandstone cores CT scanning analysis,this paper firstly demonstrates the basic principles of Computed Tomography,and then conducts gas core test based on given test method and steps,finally does core analysis in terms of CT scanning steps from three aspects: one is the CT number of dry core;second is core porosity and distribution;and the last is CT scan-ning of core before and after the mechanical test.Test results show that the tighter the core,the more the CT number;the core porosity from analysis of CT test is very close to the experiment measured value;the core gives birth to diversified fractures under a certain force.Conclusion has been drawn from the results,CT scanning can diagnose the coMPact degree of cores,determine core porosity and meanwhile observe core fracture change after the core fractured,which supplies references to the study of low-permeability core fracture extension.
作者 梁亚宁 张士诚 叶银珠 韩秀玲 段鹏辉
机构地区 中国石油大学石油工程教育部重点试验室 中国石油勘探开发研究院 中国石油长庆油田分公司超低渗透油藏研究中心
出处 《石油钻采工艺》 CAS CSCD 北大核心 2011年第2期98-101,共4页 Oil Drilling & Production Technology
基金 国家重大科技专项"大型油气田及煤层气开发"项目(编号:2008ZX05024-03-003-004)资助
关键词 CT技术 低渗透 岩心 裂缝 Computed Tomography scanning low permeability core fracture
分类号 P618.13 [天文地球—矿床学]
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参考文献15

  • 1WITH JACK E M. Computed tomography for rock- property determination and fluid-flow visualization [ R ] . SPE 16951, 1988.
  • 2PATRICIA K HUNT, PHLLIP ENGLER, CAROLINE BAJSAROWICZ.Computed tomography as a core analysis tool: applications, instrument evaluation, and image improvement techniques [ R ]. SPE 16952, 1988.
  • 3XIAO-CHUN LU, PEPIN G P, MOSS R M, et al. Determination of gas storage in devonian shales with x-ray-computed tomography[ R ]. . SPE 24810, 1992.
  • 4BERNARD Tremblay,GEORGE Sedgwick, KEN Forshner. Imaging of sand production in a horizontal sand pack by x-ray computed tomography [ R ] . SPE 30248, 1996.
  • 5COLES M E, HAZLETT R D, SPANNE P, et al. Characterization of reservoir core using computed microtomography [ R ] . SPE 30542, 1996.
  • 6NGUYEN Q P, ROSSEN W R, ZITHA P L J, et al. Determination of gas trapping with foam using x-flay computed tomography and effluent analysis [ R ] . SPE 94764, 2008.
  • 7DU Dongxing, ZITHA Pacelli L J, MATTHIJS G H UIJTTENHOUT. Carbon dioxide foam rheology in porous media:a ct scan study [ R ] . SPE 97552, 2008.
  • 8SHAMEEM SIDDIQUI, AON A KHAMEES.Data visualization challenges for displaying laboratory core and flow data in three-dimensions [R ] . SPE 106334, 2007.
  • 9VIK B, DJURHUUS K, SPILDO K, et al. Characterisation ofvuggy carbonates [R ] . SPE111434, 2007.
  • 10GHAITHAN A. AL-MUNTASHERI, PACELLI L J ZITHA, HISHAM A NASR-EL-DIN. A new organic gel system for water control: a computed tomography study [ R ] . SPE 129659, 2010.

二级参考文献16

共引文献109

同被引文献299

引证文献22

二级引证文献230

石油钻采工艺
2011年 第2期

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