处理解释一体化技术在准噶尔盆地南缘齐古背斜的应用

doi:10.13810/j.cnki.issn.1000-7210.2017.S2.021

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摘要准噶尔盆地南缘前陆冲断带勘探潜力巨大，但特殊地震地质条件造成地震资料品质普遍较低，影响了构造圈闭识别的准确性，对南缘油气发现影响巨大。采用GeoEast系统高保真去噪技术、DIVA井控建模技术、复杂构造建模技术等处理解释一体化技术序列，大幅度改善了齐古背斜地震资料成像品质，提高了高陡构造成像精度，深度域成像与井深相对误差控制在2.5%以内。GeoEast处理解释一体化系统特色技术为地质研究提供了可靠的基础资料，有力支撑了该地区井位部署与论证。

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	谭佳
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	张龙

关键词 ：处理解释一体化, 信噪比, 井控建模, 网格层析, 构造建模

Abstract：Foreland thrust belts in the southern margin of Junggar Basin have great potential for the hydrocarbon exploration, but seismic data quality is rather poor due to surface conditions, which affect greatly the structural trap identification and hydrocarbon discoveries in the area. To overcome the problems we adopt a series of integrated processing and interpretation approaches provided by GeoEast such as high fidelity denoising, DIVA well-control modeling, complex structure modeling, etc. Both seismic data quality and steep structure imaging in Qigu Anticline are greatly improved. The depth difference between our predicted targets and that found by drilled wells is less 2.5%. The integrated processing and interpretation technology of GeoEast provides reliable basic data for geological research and effective supports for the future deployment in this area.

Key words： integrated seismic data processing & interpretation signal-to-noise ratio (SNR) well-controlled modeling grid chromatography structural modeling

收稿日期: 2017-05-21

PACS:

P631

通讯作者: 谭佳,新疆维吾尔自治区乌鲁木齐市新疆油田分公司勘探开发研究院地球物理研究所,830013。Email:tanjia@petrochina.com.cn E-mail: tanjia@petrochina.com.cn

作者简介: 谭佳,高级工程师,1981年生;2007年毕业于新疆大学应用数学专业,获硕士学位。现在新疆油田分公司勘探开发研究院地球物理研究所,主要从事物探方法研究及地震资料处理。

引用本文:

谭佳, 罗勇, 张淑萍, 蒋立, 王俊, 张龙. 处理解释一体化技术在准噶尔盆地南缘齐古背斜的应用[J]. 石油地球物理勘探, 2017, 52(s2): 123-128. Tan Jia, Luo Yong, Zhang Shuping, Jiang Li, Wang Jun, Zhang Long. Integrated seismic data processing & interpretation applied in Qigu Anticline, Junggar Basin. Oil Geophysical Prospecting, 2017, 52(s2): 123-128.

链接本文:

http://www.ogp-cn.com/CN/10.13810/j.cnki.issn.1000-7210.2017.S2.021 或 http://www.ogp-cn.com/CN/Y2017/V52/Is2/123

[1]	林娟,罗勇,张龙等.GeoEast处理系统在准南复杂高陡构造地区的应用.石油地球物理勘探,2014,49(增刊1):60-65.Lin Juan,Luo Yong,Zhang Long et al.GeoEast seismic data processing in complex steep structure areas,Junggar Basin.OGP,2014,49(Supplement 1):60-65.
[2]	雷德文,陈能贵,李学义等.准噶尔盆地南缘下部成藏组合储集层及分布特征.新疆石油地质,2012,33(6):648-650.Lei Dewen,Chen Nenggui,Li Xueyi et al.The major reservoirs and distribution of lower combination in southern margin of Jungar Basin.Xinjiang Petroleum Geology,2012,33(6):648-650.
[3]	罗勇,张龙,马俊彦等.复杂构造地震叠前深度偏移速度模型构建及效果.新疆石油地质,2013,34(5):576-579.Luo Yong,Zhang Long,Ma Junyan et al.The pre-stack depth migration velocity model for complex geological structures in southern margin of Junggar Basin:Modeling and effect.Xinjiang Petroleum Geology,2013,34(5):576-579.
[4]	吕焕通,吴永强,高奇等.准噶尔盆地南缘下组合复杂构造地震成像技术效果.新疆石油地质,2012,33(5):586-587.Lü Huantong,Wu Yongqiang,Gao Qi et al.Seismic imaging effect of lower combination complex structures in southern margin of Junggar Basin.Xinjiang Petroleum Geology,2012,33(5):586-587.
[5]	梁卫,宋强功,汪瑞良等.构造+岩性油气藏地震处理、解释一体化实例研究.石油地球物理勘探,2015,50(2):327-340.Liang Wei,Song Qianggong,Wang Ruiliang et al.Integrated seimic processing and interpretation for a structural+stratigraphic reservoir:a case study.OGP,2015,50(2):327-340.
[6]	李文建,韩春瑞,安燕燕等.柴达木盆地高陡构造地震勘探技术.石油地球物理勘探,2016,51(增刊):17-26.Li Wenjian,Han Chunrui,An Yanyan et al.Seismic data acquisition for high-steep structures in Qaidam Basin.OGP,2016,51(Supplement):17-26.
[7]	苏贵仕,丁成震.叠前随机噪声衰减及其应用技巧.石油地球物理勘探,2014,49(增刊1):87-92.Su Guishi and Ding Chengzhen.Random noise attenuation on prestack seismic data and its application skills.OGP,2014,49(Supplement 1):87-92.
[8]	徐海,樊太亮,赵夏等.基于矢量中值滤波的ISS高密度地震数据去噪方法.石油地球物理勘探,2013,48(3):340-344.Xu Hai,Fan Tailiang,Zhao Xia et al.A deblending method based on vector median filter for ISS high density seismic data.OGP,2013,48(3):340-344.
[9]	王华忠,程玖兵,马在田.地震波场深度外推消除与地面有关的噪声.同济大学学报,2000,28(3):333-336.Wang Huazhong,Cheng Jiubing and Ma Zaitian.Filtering noise related to land surface through depth extrapolation of seismic wave field.Journal of Tongji University,2000,28(3):333-336.
[10]	胡英,张研,陈立康等.速度建模的影响因素与技术对策.石油物探,2006,45(5):503-507.Hu Ying,Zhang Yan,Chen Likang et al.Influencing factors and technical strategies for velocity modeling.GPP,2006,45(5):503-507.
[11]	王卫华.速度横向变化对地震成像的影响.石油地球物理勘探,2007.42(6):720-726.Wang Weihua.Influence of lateral velocity variation on seismic imaging.OGP,2007,42(6):720-726.
[12]	王海,赵会欣,晋志刚.观测系统对高密度地震采集资料的影响.石油地球物理勘探,2009,42(2):131-135.Wang Hai,Zhao Huixin and Jin Zhigang.Influence of geometry on high-density seismic data acquistion.OGP,2009,42(2):131-135.
[13]	井西利,杨长春,李幼铭.建立速度模型的层析成像方法研究.石油物探,2002,41(1):72-76.Jing Xili,Yang Changchun,Li Youming.Study of tomographic inversion in the construction of velocity model.GPP,2002,41(1):72-76.
[14]	李慧,成德安,金婧.网格层析成像速度建模方法与应用.石油地球物理勘探,2013.48(增刊1):12-16.Li Hui,Cheng Dean and Jin Jing.Velocity model building based on grid tomography.OGP,2013,48(Supplement 1):12-16.
[15]	马彦彦,李国发,张星宇等.叠前深度偏移速度建模方法分析.石油地球物理勘探,2014,49(4):687-693.Ma Yanyan,Li Guofa,Zhang Xingyu et al.Strategy of velocity model building in prestack depth migration.OGP,2010,49(4):687-693.
[16]	赵亮,钱宇明,于海生等.GeoEast三维可视化解释建模技术.石油工业计算机应用,2016,24(3):57-59.Zhao Liang,Qian Yuming,Yu Haisheng et al.GeoEast integrated interpretation and modeling technology.Computer Applications of Petroleum,2016,24(3):57-59.
[17]	王娟,陈玉林,郭宝玺.三维可视化河道立体解释技术.石油地球物理勘探,2005,40(6):677-681.Wang Juan,Chen Yulin and Guo Baoxi.3-D visualization interpretation technique of channels.OGP,2005,40(6):677-681.