| 用柱状成层各向异性介质的并矢Green函数模拟偏心对多分量感应测井响应的影响 |
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| 引用本文: | 魏宝君,曹景强,任广强,贾毅龙.用柱状成层各向异性介质的并矢Green函数模拟偏心对多分量感应测井响应的影响[J].地球物理学报,2017,60(3):1234-1247. |
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| 作者姓名: | 魏宝君 曹景强 任广强 贾毅龙 |
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| 作者单位: | 1. 中国石油大学(华东)理学院, 青岛 266580;
2. 山东省高校新能源物理与材料科学重点实验室(中国石油大学), 青岛 266580 |
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| 基金项目: | “十三·五”国家科技重大专项(2016ZX05019007)、中央高校基本科研业务费专项资金(15CX05047A)资助. |
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| 摘 要: | 采用偏心状态下柱状成层各向异性(横向各向同性)介质中并矢Green函数的解析表达式高效模拟多分量感应测井仪器在井眼中偏心时的响应.为提高精度,在模拟时考虑到了金属心轴、绝缘保护层的存在以及各分量线圈系的具体形状.数值模拟结果表明,当井眼内钻井液电导率相对较高、地层电导率相对较低时,偏心对仪器响应的影响较大,尤其是对短线圈距线圈系的影响更为明显,必须进行偏心效应校正.当钻井液电导率相对较低时,偏心对线圈系响应的影响可忽略不计.对位于相对低电导率井眼中的线圈系而言仪器方位角的影响可忽略不计,而当线圈系位于相对高电导率井眼中时仪器方位角的影响极为明显.当仪器偏心率较小时线圈系的响应随仪器方位角的变化较小,仪器偏心率越大线圈系的响应随仪器方位角的变化越明显.
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| 关 键 词: | 多分量感应测井 并矢Green函数 柱状成层各向异性介质 偏心 |
| 收稿时间: | 2016-03-27 |
Simulating effect of tool eccentricity on responses of multi-component induction logging tools by dyadic Green's functions in cylindrically stratified anisotropic media |
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| WEI Bao-Jun,CAO Jing-Qiang,REN Guang-Qiang,JIA Yi-Long.Simulating effect of tool eccentricity on responses of multi-component induction logging tools by dyadic Green's functions in cylindrically stratified anisotropic media[J].Chinese Journal of Geophysics,2017,60(3):1234-1247. |
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| Authors: | WEI Bao-Jun CAO Jing-Qiang REN Guang-Qiang JIA Yi-Long |
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| Institution: | 1. College of Science, China University of Petroleum, Qingdao 266580, China;
2. Key Laboratory of New Energy Physics & Material Science in Universities of Shandong(China University of Petroleum), Qingdao 266580, China |
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| Abstract: | The multi-component induction logging tool has several arrays with each array being composed of three mutually orthogonal transmitter-receiver pairs, so it can simultaneously measure nine components of the magnetic field produced by the transmitters and can provide data on horizontal and vertical resistivities of the formation. The tool is of great importance for accurate evaluation of complex formation such as anisotropic (actually transversely isotropic, i.e. TI) formation. It is necessary to systematically investigate the influence of environments such as bed thickness, borehole and invasion zone on the responses of the tool. In this paper, an analytical algorithm was developed that can efficiently simulate the responses of a centric or eccentric multi-component induction logging tool with both a metal mandrel and an insulating protection layer in a borehole surrounded by TI formations, and the shape of all the component's coils of the tool was also taken into account.
The algorithm was based on the spectral-domain dyadic Green's functions in homogeneous TI media. The spectral-domain dyadic Green's functions in cylindrically stratified TI media was then derived using a recursive method, which was realized by introducing local transmission and local reflection matrices under anisotropic condition and by using the continuity of the tangential components of the electromagnetic fields on interfaces. As for the situation of tool eccentricity in a borehole, the insulating protection layer where the coils are positioned was taken as the 0-th layer, while the borehole is taken as the 1-th layer. The fields in the borehole can be expressed by the fields in the insulating layer by using the continuity of their tangential components on the interface between the insulating layer and the borehole. Finally the new algorithm was developed for eccentric situation by using the relationship between the electromagnetic fields in the borehole under the cylindrical coordinates that are centered with respect to the borehole and are centered with respect to the tool.
The responses of eccentric multi-component induction logging tools in a borehole were simulated by the algorithm. The observations include:(1) Given the conductivity of the drilling liquid and the horizontal and vertical conductivities of the TI formation, the relationship between the receiver coil's response and the eccentricity ratio was shown for different arrays of zz-component and xx-component. The results showed that the influence of the eccentricity ratio on the tool's responses is much more obvious under the condition of relatively high conductivity of the drilling liquid, especially for short spacing arrays, so the eccentricity effect should be corrected. While for the condition of relatively low conductivity of the drilling liquid, the eccentricity effect can be neglected. (2) Given the conductivity of the drilling liquid, the horizontal and vertical conductivities of the TI formation and the tool's eccentricity ratio, the relationship between the receiver coil's response and the azimuth angle was shown for different arrays of xx-component. The results showed that the influence of the azimuth angle is much more obvious under the condition of relatively high conductivity of the drilling liquid, and its influence can be neglected for the condition of relatively low conductivity of the drilling liquid. The results has also showed that when the tool is in the borehole with relatively high conductivity, the xx-component coil's response changes more obviously with the azimuth angle under the condition of big eccentricity ratio. (3) Given the horizontal and vertical conductivities of the TI formation and the tool's eccentricity ratio, the relationship between the receiver coil's response and the conductivity of the drilling liquid was shown for different arrays of zz-component and xx-component. The results showed that the ratio between the coil's eccentric and centric responses is close to 1 when the conductivity of the drilling liquid is small. The ratio will deviate from 1 with increasing conductivity of the drilling liquid, especially for short spacing arrays. (4) Given the conductivity of the drilling liquid, the ratio between the horizontal and vertical conductivities of the TI formation and the tool's eccentricity ratio, the relationship between the receiver coil's response and the horizontal conductivity of the TI formation was shown for different arrays of zz-component and xx-component. The results showed approximately opposite patterns as in case 3. The ratio between the coil's eccentric and centric responses will deviate from 1 when the horizontal conductivity of the TI formation is small for short spacing arrays, and it becomes more and more close to 1 with increasing horizontal conductivity of the TI formation.
From all the results we can see that the effect of tool eccentricity on responses of multi-component induction logging tools is big for short spacing arrays and under the condition of relatively high conductivity of the drilling liquid, and it should be corrected in order to accurately estimate formation vertical resistivity from tool measurements. |
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| Keywords: | Multi-component induction logging Dyadic Green's functions Cylindrically stratified anisotropic media Eccentricity |
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