Citation: | YANG Xiaojiang, LI Xisheng Xisheng, WANG Shenghao, LI Xiao. APPLICATION OF MARINE MULTI AZIMUTH FUSION SEISMIC TECHNOLOGY IN YB OILFIELD OF THE EASTERN ZHUJIANGKOU BASIN[J]. Marine Geology Frontiers, 2017, 33(10): 71-77. doi: 10.16028/j.1009-2722.2017.10009 |
Compared to conventional offshore streamer seismic technology, marine multi azimuth fusion technology has suppressed the acquisition footprint to improve signal-to-noise ratio, increase the illumination and improve the quality of seismic data imaging as well as other advantages. And the marine multi azimuth fusion technique can be easily realized with conventional offshore seismic streamer equipment only. Aiming at the high water cut and the production pressure in the late stage of YB oilfield and the difficulty for evaluating oilfield target in the east of the Pearl River Mouth Basin, the multi azimuth fusion seismic technology was suggested. It is proved by application that the multi azimuth fusion seismic technology is more favorable for the stable production of the oilfield and the discovery of the surrounding reserves.
[1] | Levin F K.Apparent velocity from dipping interface reflections[J]. Geophysics, 1971, 36:510-516. doi: 10.1190/1.1440188 |
[2] | OêConnell J K, Kohli M, Amos S. Bullwinkle :A unique 3D Experiment [J].Geophysics, 1993,58:167-176. doi: 10.1190/1.1443346 |
[3] | Houllevigue H, Delesalle H, De Bazelaire E. Enhanced composite 3D cude derived from multi-azimuth 3D marine acquisitions[C].61th EAGE Conference & Exhibition, 1999:1-8. |
[4] | Jones I, Baud H, Henry B, et al.The effect of acquisition direction on pre-sdm image[C]. 61th EAGE conference and technical exhibition-helsinki,Finland,1999:7-11. |
[5] | Keggin J, Benson M, Rietveld W, et al. Multi-Azimuth towed streamer 3D seismic in the Nile Delta, Egypt[C]. SEG/New Orleans 2006 Annual Meeting,2006,25:2891-2895. |
[6] | Manning T, Keggin J, Walter E A, et al. Multi-Azimuth(MAZ) tow streamer data processing flow from the Nile Delta[C]. SEG Technical Program Expanded Abstracts,2006,25:2842-2846. |
[7] | James K, Page C. Key aspects of Muti-Azimuth acquisition and processing[J]. SEG Technical Program Expanded Abstracts,2006,25:2886-2890. |
[8] | Manning T. Quantifying and increasing the value of multi-azimuth seismic[J]. The Leading Edge,2007,26(4):510,520. doi: 10.1190/1.2723215 |
[9] | 朱江梅,李列,杨薇,等.多方位角地震资料在文昌凹陷勘探开发中的应用分析[J].地球物理学进展,2013,28(5):2587-2596. |
[10] | 吕晓春,孙常新,成景旺,等.面向目标成像的海上多方位观测系统的评价与优化石油[J].地球物理勘探,2016,51(1):13-20. doi: 10.6038/pg20130538 |
[11] | Thomsen L. Weak elastic anisotropy[J].Geophysics,1986,51(10):1954-1966. doi: 10.1190/1.1442051 |
[12] | 贾福宗,李道善,曹孟起,等.宽方位纵波地震资料HTI各向异性校正方法研究与应用[J].石油物探,2013,52(6):650-658. |
[13] | 黄跃,马昭军,甘其刚,等.基于HTI介质理论的纵波速度分析方法[J].成都理工大学学报:自然科学版,2011,38(4):476-480. doi: 10.3969/j.issn.1000-1441.2013.06.014 |
[14] | 董世泰,刘雯林,乐金,等.压制三维地震数据采集脚印的方法研究[J].石油地球物理勘探, 2007,42(1):7-10. doi: 10.3321/j.issn:1000-7210.2007.01.003 |
[15] | 徐辉,韩文功,单联瑜.基于实际地震资料的覆盖次数和信噪比关系分析[J].石油物探,2011,50(2):181-186. doi: 10.3969/j.issn.1000-1441.2011.02.012 |
The flow chart of multi-azimuth process
The comparison of acquisition footprints
The comparison of S/N
The comparison of imaging quality
The application of multi azimuth structure
Tracing section of channel sand
Deposit model of channel sand
3D distribution of channel sand bodies on No.1 and No.2