Analysis of Response Characteristic of P-Wave Velocity in Abnormal Over-Pressure Formation
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摘要: 目前已经可以利用试验方法解释纵波速度在砂泥岩与碳酸盐岩异常高压地层的变化特征,但机理研究还处于探索阶段。基于Biot理论,建立了纵波速度方程,分析了纵波速度的主要组成;探讨了影响纵波速度变化的主要因素,解释了异常高压地层的纵波速度变化特征。研究结果表明,在异常高压地层,砂泥岩的骨架体积弹性模量大幅变小,基质型碳酸盐岩的骨架体积弹性模量几乎不变,裂缝性碳酸盐岩的骨架体积弹性模量小幅变小。研究表明,骨架体积弹性模量决定了砂泥岩与碳酸盐岩地层异常高压的纵波速度变化特征,可以根据骨架纵波速度分析饱和流体岩石的纵波速度变化趋势。Abstract: The response characteristics of P-wave velocity in abnormal over-pressure shale sand and carbonate rock can be interpreted by using experimental methods now,but the research on mechanism is still in the exploratory stage.Based on Biot theory, P-wave velocity equation was established and the major components of the P-wave velocity were analyzed.The main factors affecting P-wave velocity change were discussed and the variation features of P-wave velocity in abnormal over-pressure formation were explained.The results showed that in the abnormal over-pressure formation,the rock framework bulk modulus of shale sand rock became significantly smaller,that of matrix carbonate rock kept essentially constant,and that of fractured carbonate rock dropped slightly.The study showed that the response characteristics of P-wave velocity of shale sand rock and carbonate rock with abnormal over-pressure were determined by the rock framework bulk modulus,and the P-wave velocity of rock framework could be used to estimate the P-wave velocity variation trend of saturated rock.
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Keywords:
- P-wave velocity /
- Biot theory /
- rock framework bulk modulus /
- abnormal pressure
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[1] 韩来聚,李祖奎,燕静,等.碳酸盐岩地层岩石声学特性的试验研究与应用[J].岩石力学与工程学报,2004,23(14):2444-2447. Han Laiju,Li Zukui,Yan Jing,et al.Test and application of sonic properties of carbonate rock[J].Chinese Journal of Rock Mechanics and Engineering,2004,23(14):2444-2447. [2] Meng Zhaoping,Zhang Jichang,Joachim T.Relationship between physical and mechanical parameters and acoustic wave velocity of coal measures rocks[J].Chinese Journal of Geophysics,2006,49(5):1505-1510.
[3] 金衍,陈勉,郭凯俊,等.复杂泥页岩地层地应力确定方法研究[J].岩石力学与工程学报,2006,26(11):2287-2291. Jin Yan,Chen Mian,Guo Kaijun,et al.Study on determination method of in-situ stress for complex silt formations[J].Chinese Journal of Rock Mechanics and Engineering,2006,26(11):2287-2291. [4] Atashbari V,Tingay M R,et al.Compressibility method for pore pressure prediction[J].SPE 156337,2012.
[5] Lee Y,Deming D.Overpressures in the Anadarko Basin,southwestern Oklahoma:static or dynamic[J].AAPG Bulletin,2002,86(5):145-160.
[6] Li Shuling,George Jeff,Purdy Cary.Pore-pressure and wellbore-stability prediction to increase drilling efficiency[J].Journal of Petroleum Technology,2012,64(2):99-101.
[7] Li Qiuguo,Heliot Denis,Zhao Liangxiao,et al.Abnormal pressure detection and wellbore stability evaluation in carbonate formations of East Sichuan[R].IADC/SPE 59125,2000.
[8] Han Dehua,Nur A,Morgan Dale.Effects of porosity and caly content on wave velocities in sandstone[J].Geophysics,1986,51(11):2093-2107.
[9] 樊洪海,邢树宾,何辉.二维地层孔隙压力预测方法及应用[J].石油钻探技术,2007,35(4):6-8. Fan Honghai,Xing Shubin,He Hui.A method and the application of two dimensional formation pressure prediction[J].Petroleum Drilling Techniques,2007,35(4):6-8. [10] Biot M A.Generalized theory of acoustic propagation in porous dissipative media[J].Journal of the Acoustical Society America,1962,34(5):1254-1264.
[11] Gassmann F.Elastic waves through a peaking of spheres[J].Geophysics,1951,16(6):673-682.
[12] 陈勉,金衍,张广清.石油工程岩石力学[M].北京:科学出版社,2008:18-25. Chen Mian,Jin Yan,Zhang Guangqing.Rock mechanics in petroleum engineering[M].Beijing:Science Press,2008:18-25. [13] 葛洪魁,韩德华,陈颙.砂岩孔隙弹性特性的试验研究[J].岩石力学与工程学报,2001,20(3):332-337. Ge Hongkui,Han Dehua,Chen Yong.Experimental investigation on poroelasticity of sandstones[J].Chinese Journal of Rock Mechanics and Engineering,2001,20(3):332-337. [14] Pride S R,Berryman J G,Harris J M.Seismic attenuation due to wave-induced flow[J].Journal of Geophysical Research,2004,109(B1):1546-1564.
[15] 罗远儒,陈勉,金衍,等.伊朗Arvand-1井异常高压地层溢流压井技术[J].石油钻探技术,2011,39(6):112-115. Luo Yuanru,Chen Mian,Jin Yan,et al.Well kill technique for abnormal high formation pressure in Well Arvand-1 of Iran[J].Petroleum Drilling Techniques,2011,39(6):112-115. [16] Gutierrez M A,Braunsdorf N R,Couzens B A.Calibration and ranking of pore-pressure prediction models[J].The Leading Edge,2006,25(11):1516-1523.
[17] Jin Yan,Qi Zili,Chen Mian,et al.Time-sensitivity of the Kaiser effect of acoustic emission in limestone and its application to measurements of in-situ stress[J].Petroleum Science,2009,6(2):176-180.
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