火成岩发育区分频速度建模技术及应用OA
Modeling of frequency-division velocity and its application in igneous rock area in G structure,Xihu Sag
东海陆架盆地西湖凹陷 G背斜受构造反转和火山活动等影响,速度横向变化大,常规处理地震速度场频率信息有限,难以反映尺度不一的火成岩等细节信息,真实构造形态难以落实.针对存在问题,提出了一种新的适用于构造反转和火成岩发育区的地震速度场分频重构和时深转换混合层速度模型建立方法:①通过多属性联合对火成岩进行识别和尺度分类.②对不同尺度火成岩通过分频重构的方法建立地震速度场,对大尺度火成岩和横向速度趋势,通过高精度非线性网格层析联合叠前深度偏移获得低频信息,结合各向异性速度建模进一步提升复杂构造成像精度;对小尺度火成岩,通过叠前同时反演获得高频信息;将高频速度和低频速度重构获得既和构造趋势吻合、又能反映局部细节的地震层速度场.③最后在构造模型的约束下,利用井速度对分频重构地震速度场进行校正,得到最终用于时深转换的混层速度模型.基于此方法,发现 G背斜深浅层存在构造高点迁移现象.该结论得到了勘探井钻探数据的支持,即钻前钻后构造解释高度一致,深度预测误差在 10 m以内,验证了该方法的可靠性.在 G构造新认识的启示下,通过变速成图落实西湖凹陷其他背斜的构造形态发现:高点迁移具有普遍性,深层的早期高点更有利于早期油气汇聚和成藏,是下有利的勘探方向.
The G structure in the Xihu Sag of the East China Sea Shelf Basin is influenced by tectonic inversion and volcanic activities,leading to significant lateral velocity variations.The frequency information of the seismic velocity field obtained by traditional processing method is limited,which is a challenge to acquire specific inform-ation of igneous rocks of different scales and to predict accurate structural feature.A new method for frequency-division reconstruction of the seismic velocity field and a hybrid interval velocity model for time-depth conver-sion was proposed,which is applicable to the areas with structural inversion and the development of igneous rocks.First,igneous rocks were identified and classified by scale through multi-attribute analysis.For large-scale igneous rocks and lateral velocity trends,low-frequency velocity components were derived via high-resolution nonlinear grid tomography combined with pre-stack depth migration,which was further enhanced by anisotropic velocity modeling to improve complex structural imaging.For small-scale igneous rocks,high-frequency velocity components were obtained through pre-stack simultaneous inversion.Secondly,the high-and low-frequency velo-cities were then integrated to reconstruct a seismic interval velocity field,which is not only consistent with the structural trend,but also can reflect the local details.Finally,under structural model constraints,well-derived velo-cities were used to calibrate the frequency-division velocity model to build a hybrid interval velocity model for time-depth conversion.Based on this method,we found the migration of structural high in the deep and shallow layers of the G anticline.The finding was supported by the drilling of an exploration well:the pre-and post-drill structural interpretations was highly consistent and the depth prediction errors were within 10 m,which validated the reliability of the method.Inspired by the new understanding of structure G,we found that the structural-high migration in other anticlinal structures in Xihu Sag was common through variable velocity mapping.The early high points in the deep layer are more conducive to the early convergence and accumulation of oil and gas,which is favorable exploration direction for the next-stage working.
焦社宝;尹文笋;张伯成;常吟善;许怀智
中海石油(中国)有限公司上海分公司,上海 200335中海石油(中国)有限公司上海分公司,上海 200335中海石油(中国)有限公司上海分公司,上海 200335中海石油(中国)有限公司上海分公司,上海 200335中海石油(中国)有限公司上海分公司,上海 200335
海洋科学
西湖凹陷火成岩分频速度建模变速成图深层
Xihu Sagigneous rockfrequency-division velocity modelingvariable velocity mappingdeep lay-er
《海洋地质前沿》 2026 (4)
88-99,12
中海石油(中国)有限公司重大科技专项"东海西湖凹陷大中型气田勘探方向及关键技术方法"(KJZX-2023-0101)
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