通过更好的采集计划来改善墨西尼亚区间以下的照明

I. Mihaljević, A. Abouelela, N. Moldoveanu, F. Diagon, H. Mannaerts-Drew, E. L’heureux, G. Xia, H. Al-Attar
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引用次数: 0

摘要

在过去的十年中,埃及近海的勘探目标已经转移到盐下。迈锡尼亚盐是一个复杂的区间,从西地中海到东地中海改变了它的特征。现有的地震资料不能正确地捕捉到前墨西尼亚期的目标。我们利用现有的地震和非地震数据建立了具有代表性的三维地球模型,并结合埃及海上的典型挑战,使用三维有限差分建模来模拟不同的采集方法。在建模结果的基础上,本文将进一步展示盐下照明的最佳采集方法。此外,我们将研究宽带地震数据的影响,以及表面和内部倍数、不准确的速度模型和吸收对盐层以下图像的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving the Illumination Below Messinian Interval through Better Acquisition Planning
Summary During the last decade, the exploration targets offshore Egypt have moved subsalt. Messinian salt is a complex interval that changes its character going from West to East Mediterranean. Existing seismic data was not able to properly capture the pre-Messinian targets. We have used the available seismic and the non-seismic data to build the representative 3D Earth model, incorporating typical challenges offshore Egypt. 3D Finite Difference modeling was used to simulate different acquisition approaches. Based on the modeling results, further in this abstract we will show the best acquisition approaches to illuminate subsalt. Moreover we will examine the impact of the broadband seismic data as well as the impact of surface and internal multiples, inaccurate velocity models and absorption on the image below the salt.
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