[1]张伟伟,黄胜,刘文华,等.深部硬石膏岩盖层地应力测井评价方法[J].测井技术,2019,43(01):64-69.[doi:10.16489/j.issn.1004-1338.2019.01.012]
 ZHANG Weiwei,HUANG Sheng,LIU Wenhua,et al.Log Evaluation Method of Geo-stress in Deep Anhydrite Cap Rock[J].WELL LOGGING TECHNOLOGY,2019,43(01):64-69.[doi:10.16489/j.issn.1004-1338.2019.01.012]
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深部硬石膏岩盖层地应力测井评价方法()
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《测井技术》[ISSN:1004-1338/CN:61-1223/TE]

卷:
第43卷
期数:
2019年01期
页码:
64-69
栏目:
综合应用
出版日期:
2019-04-20

文章信息/Info

Title:
Log Evaluation Method of Geo-stress in Deep Anhydrite Cap Rock
文章编号:
1004-1338(2019)01-0064-06
作者:
张伟伟1 黄胜1 刘文华1 赵永昌1 代红霞1 邓文传1 尹帅2
(1.中国石油集团测井有限公司华北分公司, 河北 任丘 062552; 2.西安石油大学地球科学与工程学院, 陕西 西安 710065)
Author(s):
ZHANG Weiwei1 HUANG Sheng1 LIU Wenhua1 ZHAO Yongchang1 DAI Hongxia1 DENG Wenchuan1 YIN Shuai2
(1. Huabei Branch of China Petroleum Logging CO. LTD., Renqiu, Hebei 062552, China; 2. School of Earth Science and Engineering, Xi'an Shiyou University, Xi'an, Shaanxi 710065, China)
关键词:
测井评价 横波时差 硬石膏岩 岩石力学 地应力
Keywords:
log evaluation shear wave time difference anhydrite rock rock mechanics geo-stress
分类号:
P631.84
DOI:
10.16489/j.issn.1004-1338.2019.01.012
文献标志码:
A
摘要:
硬石膏岩具有极低的渗透性及良好的压力封闭能力,通常作为大型油气藏的良好区域盖层。塔里木盆地西南部地区古近系地层深部发育较厚的硬石膏岩层。深部硬石膏岩层的地质特征及应力环境相对复杂,对其地应力进行精细测井评价可以为高效钻探提供依据。通过设计三轴力学和声学同步测试实验,模拟地层高应力环境,获取硬石膏岩力学参数。在此基础上,结合地应力实验测试及测井方法,对古近系硬石膏岩层地应力进行测井评价。利用频散校正技术将实验测试的样品高频(1 MHz)波速值转换为测井频率(20 kHz)波速值。建立了古近系硬石膏岩的横波时差及动静态岩石力学参数解释模型。利用改进的Newberry模型对目的层地应力进行了测井评价,整体地应力预测结果的相对误差为5.6%,绝对误差为3.16 MPa,能够满足工程需要。
Abstract:
Anhydrite rock has very low permeability and great pressure sealing ability it is usually used as a good regional cap rock for large oil and gas reservoirs. The deep strata of Paleogene in the southwestern Tarim Basin were developed with thick anhydrite rock formations. The geological characteristics and stress environment of this deep anhydrite rock layer were relatively complex and fine logging evaluation of its geo-stress can provide a basis for efficient drilling. In this paper the triaxial mechanics and acoustic synchronization test experiments were designed to simulate the high stress environment of the formation and obtain the mechanical parameters of anhydrite. On this basis combined with the experimental test of ground stress and logging method the logging stress of the Paleogene anhydrite rock stratum was evaluated. In addition using frequency dispersion correction technology the high frequency(1 MHz)wave velocity value of the sample was converted to the wave velocity value of logging frequency(kHz)and the model of transverse wave time difference and dynamic static rock mechanics parameters of Paleogene anhydrite Rock was established. The improved Newberry model was used to evaluate the geo-stress of the target layer the relative error of the overall geo-stress prediction result was 5.6% and the absolute error was 3.16 MPa which can meet the engineering needs.

参考文献/References:


[1] RAMAMURTHY T. Strength and modulus responses of anisotropic sedimentary rocks [M]. Oxford: Pergamon Press, 1993
[2] BLOCH M, GUPTA A. A new strategy for near real-time prediction of borehole stability [J]. Journal of Canadian Petroleum Technology, 2001, 40(4): 41-47.
[3] 黄思静, 单钰铭, 刘维国, 等. 储层砂岩岩石力学性质与地层条件的关系研究 [J]. 岩石力学与工程学报, 1999, 18(4): 454-459.
[4] BAI G P, YIN J Y. Distribution characteristics and accumulation model for oil and gas in Karakum Basin, Central Asia [J]. Journal of Palaeo Geography, 2007, 9(3): 293-300.
[5] 金之钧, 周雁, 云金表, 等. 我国海相地层膏盐岩盖层分布与近期油气勘探方向 [J]. 石油与天然气地质, 2010, 31(6): 715-724.
[6] EBERHARDT E. The Hoek-Brown failure criterion [J]. Rock Mechanics Rock Engineering, 2012, 45(2): 981-988.
[7] 卢亚峰, 林元华, 唐庚, 等. 塔北隆起盐下油气藏井眼缩径研究 [J]. 钻井液与完井液, 2011, 28(1): 8-10.
[8] 赵玉民, 李勇, 钟建华, 等. 我国地下储气库地质约束因素分析 [J]. 应用基础与工程科学学报, 2003, 11(3): 274-281.
[9] 邓金根, 谭强, 沈琛, 等. 川东深层盐膏岩蠕变特性实验研究 [J]. 钻采工艺, 2010, 33(4): 8-9.
[10] ANDERSON O L. Stress corrosion theory of crack propagation with application to geophysics [J]. Review of Geophysics and Space Physics, 1977, 159(1): 78-89.
[11] CASTAGNA B E. Relationships between compressional-wave and shear-wave velocities in clastic silicate rocks [J]. Geophysics, 1985, 50(4): 571-581.
[12] ROBINSON A, GLUYAS J. Model-calculations of loss of porosity in sandstones as a result of compaction and quartz cementation [J]. Marine and Petroleum Geology, 1992, 9(1): 319-323.
[13] 曾义金, 杨春和, 陈锋, 等. 深井石油套管盐膏层蠕变挤压应力计算研究 [J]. 岩石力学与工程学报, 2002, 21(4): 595-598.
[14] WU B. Biot's effective stress coefficient evaluation: static and dynamic approaches [C]∥Beijing: ISRM 2nd Asian Rock Mechanics Symposium, 2001: 11-13.
[15] LI Z M, ZHANG J C. Crustal stress and hydrocarbon exploration and development [M]. Beijing: Petroleum Industry Press, 1997.
[16] FAN X Y, GONG M, ZHANG Q Z, et al. Prediction of the horizontal stress of the tight sandstone formation in eastern Sulige of China [J]. Journal of Petroleum Science and Engineering, 2014, 113(2): 72-80.

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备注/Memo

备注/Memo:
第一作者: 张伟伟,女,1981年生,工程师,从事测井资料解释与评价研究。E-mail:mmzr2018@163.com
更新日期/Last Update: 2019-04-20