频谱成像技术在蓬莱A构造带储层厚度预测中的应用研究
|
摘要
利用频谱成像技术将时间域地震数据体转换为调谐数据体,通过其振幅谱可以识别地层的厚度变化。蓬莱A地区已钻的3口探井揭示了该区主要目的层段储层单层厚度较大,常规属性指示储层横向分布广泛,但地震剖面显示储层厚度横向上存在着明显的变化。为了研究该套储层厚度的空间变化,利用Landmark软件开展了大量的有关频谱成像模块参数的试验应用研究,最终通过参数的优选预测的储层厚度经实钻井证实比较准确,为类似地区开展储层预测提供了新的思路。
Seismic data body can be transformed into tuning body by spectral imaging technology.The thickness of strata changes can be identified by amplitude spectrum.PL1~3 wells had been drilled in the area of Penglai A area revealed that the single-layer reservoir thickness of the main purpose layer is big,and the conventional attributes indicate that the reservoir widespread,but the seismic section shows that thickness of the reservoir is significantly changed.In order to study the spatial variation of thickness of the reservoir,this paper carried out a lot of test parameters testing about Landmark software,and ultimately through the optimization of parameters of the forecast reservoir thickness of the drilling is precise confirmed,and this method can be used for similar areas to develop the reservoir prediction.
Seismic data body can be transformed into tuning body by spectral imaging technology.The thickness of strata changes can be identified by amplitude spectrum.PL1~3 wells had been drilled in the area of Penglai A area revealed that the single-layer reservoir thickness of the main purpose layer is big,and the conventional attributes indicate that the reservoir widespread,but the seismic section shows that thickness of the reservoir is significantly changed.In order to study the spatial variation of thickness of the reservoir,this paper carried out a lot of test parameters testing about Landmark software,and ultimately through the optimization of parameters of the forecast reservoir thickness of the drilling is precise confirmed,and this method can be used for similar areas to develop the reservoir prediction.
引文
[1]冯凯,查朝阳,钟德盈.反演技术和频谱成像技术在储层预测中的综合应用[J].石油物探,2006,45(3):262-266.
[2]曲霞,卢佳岚,商建立,等.储层反演技术在南阳凹陷张店油田的应用[J].石油地质与工程,2006,20(5):2426.
[3]俞寿明.高分辨率地震勘探[M].北京:石油工业出版社,1994:184-185.
[4]朱庆荣,张越迁,于兴河,等.分频解释技术在表征储层中的运用[J].矿物岩石,2003,93(3):33-37.
[5]盛秋红,肖兰雄.频谱成像技术在采穴构造储层预测中的应用[J].石油与天然气地质,2008,19(1):141-145.
[6]蔡瑞.薄层陷频法[J].勘探地球物理进展,2002,25(5):193-196.
[7]季玉新,欧钦.优选地震属性预测储层参数方法及应用研究[J].石油地球物理勘探,2003,38(S1):57-62.
[8]叶泰然,苏锦义,刘兴艳.分频解释技术在川西砂岩储层预测中的应用[J].石油物探,2008,47(1):72-76.
[9]王言英,郝亮.最大熵算法及其在频谱分析中的应用[J].大连海事大学学报,2011,37(1):1-4.
[10]薛大力,徐鸣洁.地震分频解释技术在沈143井区储层预测中的应用[J].大庆石油地质与开发,2007,26(3):128-131.
[2]曲霞,卢佳岚,商建立,等.储层反演技术在南阳凹陷张店油田的应用[J].石油地质与工程,2006,20(5):2426.
[3]俞寿明.高分辨率地震勘探[M].北京:石油工业出版社,1994:184-185.
[4]朱庆荣,张越迁,于兴河,等.分频解释技术在表征储层中的运用[J].矿物岩石,2003,93(3):33-37.
[5]盛秋红,肖兰雄.频谱成像技术在采穴构造储层预测中的应用[J].石油与天然气地质,2008,19(1):141-145.
[6]蔡瑞.薄层陷频法[J].勘探地球物理进展,2002,25(5):193-196.
[7]季玉新,欧钦.优选地震属性预测储层参数方法及应用研究[J].石油地球物理勘探,2003,38(S1):57-62.
[8]叶泰然,苏锦义,刘兴艳.分频解释技术在川西砂岩储层预测中的应用[J].石油物探,2008,47(1):72-76.
[9]王言英,郝亮.最大熵算法及其在频谱分析中的应用[J].大连海事大学学报,2011,37(1):1-4.
[10]薛大力,徐鸣洁.地震分频解释技术在沈143井区储层预测中的应用[J].大庆石油地质与开发,2007,26(3):128-131.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心