莺歌海盆地地层各向异性多波地震判别技术研究
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摘要
充分利用中国在海上采集到的多波地震资料:PZ分量(P波)时间偏移剖面、X分量(P-SV波)时间偏移剖面和Y分量(P-SH波)时间偏移剖面,对莺歌海盆地3个构造(A构造、B构造、C构造)和D砂体的地下岩石介质的各向异性特征进行了研究,Y分量(P-SH波)、X分量(P-SV波)的旅行时间闭合差、准各向异性系数和泊松比结果表明A构造、B构造、C构造等存在不同程度的各向异性,且A构造的各向异性最强。实践证明,在海洋石油勘探中,多波地震资料用于地下岩石介质各向异性的判别是可行的。
In this article, we fully used the multi-component seismic data acquired on Chinese sea: PZ component (P wave) time migration profile,X component (P-SV wave) time migration profile and Y component (P-SH wave) time migration profile to study the anisotropy of subsurface rocks in three structures(structure A, structure B, structure C) and sand-body D of Yinggehai Basin. According to the closure dispersion of Y component(P-SH wave), the closure dispersion of X component (P-SV wave), quasi-anisotropy and Poisson ratio, we conclude that structure A, structure B and structure C have vary extent anisotropy,while in structure A, there has the mostly high anisotropy. The study proved that the multi-component seismic data is feasible for distinguishing the anisotropy of subsurface rocks.
In this article, we fully used the multi-component seismic data acquired on Chinese sea: PZ component (P wave) time migration profile,X component (P-SV wave) time migration profile and Y component (P-SH wave) time migration profile to study the anisotropy of subsurface rocks in three structures(structure A, structure B, structure C) and sand-body D of Yinggehai Basin. According to the closure dispersion of Y component(P-SH wave), the closure dispersion of X component (P-SV wave), quasi-anisotropy and Poisson ratio, we conclude that structure A, structure B and structure C have vary extent anisotropy,while in structure A, there has the mostly high anisotropy. The study proved that the multi-component seismic data is feasible for distinguishing the anisotropy of subsurface rocks.
引文
1 范伟粹 .横波地震勘探译文集 [C].中国石油天然气总公司情报所 , 1 992 .
[1] 李录明,罗省贤.多波多分量地震勘探原理及数据处理方法[M].成都:成都科技大学出版社,1997.
[2] 黄中玉.多分量地震勘探的机遇与挑战[J].石油物探,2001,40(2):131-137.
[3] 张树林,李绪宣,姜立红.海上多波多分量地震技术新进展与发展方向[J].物探化探计算技术,2000,22(2):97-107.
[4] 张树林.横波地震基本理论的研究[J].地球科学进展,1992,5(2):18.
[5]WintersteinDF.Shear-wavepolarizationandsubsurfacestressdirectionsatlosthillsfield[J].Geophysics,1991,56(9):328-340.
[6] DavisTL.Multicomponentseismology:Thenextwave[J].Geophysics,2001,66(1):49.
[7] 于肇全,谢培勇.莺歌海盆地浅层气藏的形成条件及勘探技术[J].天然气工业,1997,17(3):9-13.
[8] 武凤良.莺歌海盆地天然气成藏条件探讨[J].天然气工业,1997,17(6):6-10.
[1] 李录明,罗省贤.多波多分量地震勘探原理及数据处理方法[M].成都:成都科技大学出版社,1997.
[2] 黄中玉.多分量地震勘探的机遇与挑战[J].石油物探,2001,40(2):131-137.
[3] 张树林,李绪宣,姜立红.海上多波多分量地震技术新进展与发展方向[J].物探化探计算技术,2000,22(2):97-107.
[4] 张树林.横波地震基本理论的研究[J].地球科学进展,1992,5(2):18.
[5]WintersteinDF.Shear-wavepolarizationandsubsurfacestressdirectionsatlosthillsfield[J].Geophysics,1991,56(9):328-340.
[6] DavisTL.Multicomponentseismology:Thenextwave[J].Geophysics,2001,66(1):49.
[7] 于肇全,谢培勇.莺歌海盆地浅层气藏的形成条件及勘探技术[J].天然气工业,1997,17(3):9-13.
[8] 武凤良.莺歌海盆地天然气成藏条件探讨[J].天然气工业,1997,17(6):6-10.
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