一次波和多次波联合成像在障碍观测系统中应用

doi:10.11720/wtyht.2015.2.20

摘要
参考文献
相关文章
Metrics

全文: PDF(5047 KB) HTML
输出: BibTeX | EndNote (RIS)

摘要

在地震资料采集过程中,不可避免地会遇到一些障碍区域,如某段区域由于地形特殊性无法放炮而只能放置接收器,在这种特殊观测系统下,若依然只利用一次波作为有效波,可能会出现地下结构成像信息不足。而如果此区域有比较发育的多次波,尝试将多次波和一次波同时作为有效信息用于波场逆向延拓,在震源记录中同时加入一次波和多次波成像所需的震源信息用于正向延拓,并引用2D反褶积成像条件,从而实现多次波和一次波联合成像,获取比常规一次波成像更加丰富的成像信息。模型数据和实际资料测试结果表明,此方法技术可以实现对障碍观测区域成像信息的补充,说明多次波信息在一些障碍观测区域应用的有效性。

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章

Abstract：

Primaries are usually regarded as the only seismic signals used for seismic imaging. However, when seismic acquisition encounters some obstacle areas where no shooting can be made and only the installation of receivers can be conducted, there are seismic imaging gaps because of missing seismic primaries. Given the developed multiples in obstacle area, the authors proposed a method achieving joint imaging by using primaries and multiples. The method employs sum of impulsive source and recorded primaries and multiples as source wavefield and the wavefield consisting of recorded primaries and multiples as back-extrapolated wavefield under the 2D deconvolution imaging condition. Tests on Sigsbee2B dataset and field data show that the method could provide more valuable imaging information and complement the lack of seismic primary imaging caused by obstacle topography. Tests on Sigsbee2B dataset and field data show that the method is workable and effective.

收稿日期: 2014-06-30 出版日期: 2015-04-10

P631.4

基金资助:

国家科技重大专项项目(2011zx05014-001-002)

作者简介: 郭书娟(1984-),女,博士后,现从事地震成像方法研究工作。

引用本文:

郭书娟, 王立歆, 徐兆涛, 王杰. 一次波和多次波联合成像在障碍观测系统中应用[J]. 物探与化探, 2015, 39(2): 334-340.
GUO Shu-Juan, WANG Li-Xin, XU Zhao-Tao, WANG Jie. The application of joint imaging of primaries and multiples to obstacle topography. Geophysical and Geochemical Exploration, 2015, 39(2): 334-340.

链接本文:

https://www.wutanyuhuatan.com/CN/10.11720/wtyht.2015.2.20 或 https://www.wutanyuhuatan.com/CN/Y2015/V39/I2/334

[1] Verschuur D J,Berkhout A J,Wapenaar C P A.Adaptive surface-related multiple elimination[J].Geophysics,1992,57(9):1166-1177.

[2] Berkhout A J,Verschuur D J.Estimation of multiple scattering by iterative inversion,Part 1 Theoretical considerations[J].Geophysics,1997,62(5):1586-1595.

[3] Weglein A B,Gasparotto F A,Carvalho P M ,et al.An inverse-scattering series method for attenuating multiples in seismic reflection data[J].Geophysics,1997,62(6):1975-1989.

[4] Guo Man H,Kim Y,Sen S,et al.A new multiple subtraction method using the attributes of predicted multiples//Denver:80^th Annual International Meeting,SEG,Expanded Abstracts,2010:2451-2455.

[5] Fomel S.Adaptive multiple subtraction using regularized nonstationary regression[J].Geophysics,2009,74(1):V25-V33.

[6] 张兴岩,朱江梅,杨薇,等.海洋资料多次波组合衰减技术及应用[J].物探与化探,2011,35(4):511-515.

[7] 史文英,李列,袁全社,等.串联SRME在涠西南地区多次波衰减中的应用[J].物探与化探,2013,37(5):911-915.

[8] 鲁娥,李庆春.混合Radon变换地震噪声压制的应用[J].物探与化探,2013,37(4):706-710.

[9] 田继强,胡天跃.反馈迭代法在自由表面多次波压制中的应用[J].石油物探,2008,47(5):449-454.

[10] 李钟晓,陆文凯,庞廷华,等.基于多道卷积信号盲分离的多次波自适应相减方法[J].地球物理学报,2012,55(4):1325-1334.

[11] 董烈乾,李振春,杨少春,等.基于相关迭代的非因果匹配滤波器多次波压制方法[J].地球物理学报,2013,56(10):3542-3551.

[12] Reiter E C,Toksoz M N,Keho T H,et al.Imaging with deep-water multiples[J].Geophysics,1991,56(7):1081-1086.

[13] Guitton A.Shot-profile migration of multiple reflections//72^th Ann Internat Mtg,Soc Expl Geophys Expanded Abstracts,2002:1296-1299.

[14] Muijs R,Robertsson J O A,Holliger K.Prestack depth migration of primary and surface-related multiple reflections:Part I — Imaging[J].Geophysics,2007,72(2):S59-S69

[15] Muijs R,Robertsson J O A,Holliger K.Prestack depth migration of primary and surface-related multiple reflections:Part II — Identification and removal of residual multiples[J].Geophysics,2007,72(2):S71-S76.

[16] Shan G.Source-receiver migration of multiple reflections//Dallas:73^th Ann. Internat. Mtg.,Soc. Expl. Geophys.,Expanded Abstracts,2003:1008-1011.

[17] 郭书娟,李振春,仝兆岐,等.表层多次波成像方法技术研究[J].地球物理学进展,2012,27(5):2570-2576.

[18] Curry W,Shan G.Interpolation of near offsets using multiples and prediction-error filters[J].Geophysics,2010,75(6):WB153-WB164.

[19] Wang Y,Luo Y,Schuster G T.Interferometric interpolation of missing seismic data[J].Geophysics,2009,74(3):SI37-SI45.

[20] 郭书娟,方伍宝,徐兆涛.基于表层多次波的地震数据插值方法研究[J].石油物探,2013,52(6):76-82.

[21] Valenciano A,Biondi B.2D deconvolution imaging condition for shot profile migration//Dallas:73^th Annual International Meeting,SEG,Expanded Abstracts,2003:1059-1062.

[22] 郭书娟,李振春,仝兆岐,等.基于广义的炮偏移方法实现地表多次波和一次波联合成像[J].地球物理学报,2011,54(4):1098-1105.

[23] Zhang D L,Schuster G T.Least-squares reverse time migration of multiples[J].Geophysics,2012,79(1):S11-S21.

[24] Berkhout A J,Verschuur D J.Full wave field migration,utilizing surface and internal multiple scattering//San Antonio:1^th Annual International Meeting,Soc Expl Geophys,Expanded Abstracts,2011:212-3216.

[25] Berkhout A J.Combining full wavefield migration and full waveform inversion,a glance into the future of seismic imaging[J].Geophysics,2012,77(2):S43-S50.

[1]	陈秀娟, 刘之的, 刘宇羲, 柴慧强, 王勇. 致密储层孔隙结构研究综述[J]. 物探与化探, 2022, 46(1): 22-31.
[2]	石磊, 管耀, 冯进, 高慧, 邱欣卫, 阙晓铭. 基于多级次流动单元的砂砾岩储层分类渗透率评价方法——以陆丰油田古近系文昌组W53油藏为例[J]. 物探与化探, 2022, 46(1): 78-86.
[3]	张建智, 胡富杭, 刘海啸, 邢国章. 煤矿老窑采空区地—井TEM响应特征[J]. 物探与化探, 2022, 46(1): 191-197.
[4]	刘仕友, 张明林, 宋维琪. 基于曲波稀疏变换的拉伸校正方法[J]. 物探与化探, 2022, 46(1): 114-122.
[5]	王迪, 张益明, 牛聪, 黄饶, 韩利. 压制孔隙影响的流体敏感因子优选及其在烃类检测中的应用[J]. 物探与化探, 2021, 45(6): 1402-1408.
[6]	芮拥军, 尚新民. 胜利油田非一致性时移地震关键技术探索与实践[J]. 物探与化探, 2021, 45(6): 1439-1447.
[7]	王飞, 孙亚杰, 裴金梅, 宋建国, 李文建. 高密度单点接收地震采集数据的处理方法讨论[J]. 物探与化探, 2021, 45(6): 1469-1474.
[8]	刘兰锋, 尹龙, 黄捍东, 周振亚, 董金超. 一种基于岩石物理建模的横波预测方法[J]. 物探与化探, 2021, 45(6): 1482-1487.
[9]	徐浩, 吴小平, 盛勇, 廖圣柱, 贾慧涛, 徐子桥. 微动勘探技术在城市地面沉降检测中的应用研究[J]. 物探与化探, 2021, 45(6): 1512-1519.
[10]	张豪, 辛勇光, 田瀚. 基于双相介质理论预测川西北地区雷口坡组储层含气性[J]. 物探与化探, 2021, 45(6): 1386-1393.
[11]	韦红, 白清云, 张鹏志, 甄宗玉. 基于反褶积广义S变换的双相介质理论油水识别法在渤海S油田馆陶组的应用[J]. 物探与化探, 2021, 45(6): 1394-1401.
[12]	魏岩岩, 吴磊, 周道卿, 肖安成, 黄凯. 柴达木盆地西部阿拉尔断裂新生代构造变形特征及意义[J]. 物探与化探, 2021, 45(5): 1171-1178.
[13]	张振宇, 袁桂琴, 孙跃, 王之峰. 地质调查地球物理技术标准现状与发展趋势[J]. 物探与化探, 2021, 45(5): 1226-1230.
[14]	朱颜, 韩向义, 岳欣欣, 杨春峰, 常文鑫, 邢丽娟, 廖晶. 致密砂岩储层脆性测井评价方法研究及应用——以鄂尔多斯盆地渭北油田为例[J]. 物探与化探, 2021, 45(5): 1239-1247.
[15]	雍凡, 刘子龙, 蒋正中, 罗水余, 刘建生. 城市三维地震资料处理浅层成像关键技术[J]. 物探与化探, 2021, 45(5): 1266-1274.

Viewed

Full text

Abstract

Cited

Shared

Discussed