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1.
密度信息可预测储层流体饱和度,因此获取可靠的密度参数已成为全波形反演中首要考虑的问题。为了获得更稳定的反演密度,本文从频率、初始速度模型、初始密度模型和密度速度同时反演四个方面对密度的影响进行了研究。根据研究测试结果制定了稳定的反演策略:首先将密度固定,反演速度,此时波动方程中不再含有密度项,因而可以得到准确的速度模型;将其作为初始速度模型进行速度、密度同时反演,可以较好地减小速度对密度的影响。理论模型测试结果充分说明了策略的有效性。 相似文献
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我们利用初至时距改正非线性波动方程反演方法中的相位畸变问题,从而改善了大变量速度层析射线重精度,并帮助解决了波动方程反演的不适当问题,当速度分布变化较大时,普通的非线性波动方程反演严重不适定,对于这样严重的非线性问题,不能获得正确的反结果。 相似文献
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泊松比因其物理意义明确,区分岩性和流体的效果明显,作为最重要的岩石物理参数之一被广泛地应用于储层预测研究中。在实际应用中,泊松比参数的获取主要通过先反演得到纵波、横波速度之后的转化计算,误差累积明显。AVO近似方程是振幅类反演技术的理论核心,不同表达形式的AVO近似方程所突出的物理意义也不同。基于叠前AVA多参数同步反演理论,提出一种全新的AVO近似方程,利用该AVO近似方程推导出新的递推关系式同步反演出泊松比、纵波速度、密度等弹性参数。模型与实际应用分析均表明,同步反演得到的泊松比参数有效地减少了因常规间接计算带来的累积误差,提高了储层预测精度。 相似文献
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因对初至旅行时层数的确定和拐点拾取存存不确定性.导致时间项反演方法在近地表复杂区建立的速度模型精度不高,静校正效果不理想。对此提出了利刚旅行时差值曲线方法进行层数确定和拐点拾取。理论分析认为,运用旅行时差值曲线方法时,应尽餐选择相邻的激发点。通过对三层近地表速度模型进行射线追踪。得到初至旅行时,根据其旅行时曲线初步判定层数,再运用旅行时差值曲线进一步确定层数。观察时间项反演速度模型,其与近地表速度模型较接近,经计算反演速度模型与设计的近地表速度模型之间的均方根误差仅为0.95m,可见该方法可有效提高时间项反演的精度。 相似文献
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岩溶探测对于岩溶发育地区的工程建设有重大意义,跨孔地震波探测是工程勘察有效的地球物理探测技术。本文旨在利用基于程函方程的初至旅行时层析方法,实现对跨孔地震波岩溶探测的反演,并通过多个工况的数值模拟验证其有效性,探索其适用性和局限性。首先,基于波动方程的时域有限差分对跨孔地震岩溶探测进行正演模拟;然后从模拟的地震记录中提取初至旅行时,最后以基于程函方程的初至层析方法反演得到钻孔间的地层速度模型。本文设置了单一溶洞,单一断层,溶洞断层组合及多溶洞组合4种工况,通过数值试验得到了地震记录、旅行时、反演图像、迭代残差等结果。结果表明基于程函方程的初至旅行时层析反演方法对溶洞位置、大小,断层的方位反演较为准确,对于复杂地质条件,多溶洞和裂隙组合反演较为稳定,相互之间干扰很小,能定性区分对溶洞填充物的速度与地层背景波速的高低。但岩溶异常体中的反演速度较真实速度有偏高,纵向分辨率比横向分辨率高。相比溶洞,该方法对断层较不敏感。考虑到基于程函方程的跨孔层析反演在多个岩溶地质体共存的复杂地质条件下依然保持高效和稳定,该方法可以为实际工程提供重要勘察信息。 相似文献
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《物探化探计算技术》2021,(2)
各向异性梯度可以预测裂缝型储层,利用宽方位地震数据可以更好地反演各向异性梯度。为了克服地震反演方程条件数太大、反演结果不稳定的难题,常规反演都是对反演方程做加法,如加入高斯分布、柯西分布等数学约束和测井低频约束,但是各向异性梯度测井信息不易获取,难以对反演方程做加法。因此这里提出了对反演方程做减法的反演方法,该方法分为两步:(1)认为地震数据是反射系数序列,据此消除导致最小二乘反演方程不稳定的子波项,得到自激自收地震记录和各向异性梯度地震记录;(2)基于最少反射层假设搜索准确的地下界面位置,建立反演方程,以降低反褶积方程维数。模型试算和实际工区应用表明,该方法能够增强反演方程稳定性,并能得到准确的地层各向异性梯度,为预测高角度裂缝型地层提供借鉴。 相似文献
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叠前地震资料中包含纵波速度、横波速度、密度和吸收衰减系数等弹性及粘弹性信息,其中吸收衰减属性对储层物性及流体性质尤为敏感。本文从粘弹介质精确Zoeppritz方程出发,基于介质分解理论通过公式推导及近似,建立了包含纵波速度、横波速度、密度和吸收衰减系数的纵波反射系数特征方程,利用贝叶斯反演框架,实现了叠前纵波速度、横波速度、密度、衰减四参数同步反演。模型与实际资料反演效果均表明了该方法的可靠性。该方法较好应用于胜利油田东部海上探区的油气识别,相比于常规弹性介质流体因子,四参数同步反演方法得到的吸收衰减系数能更准确地表征油气的分布。 相似文献
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基于积分方程法的大地电磁三维反演 总被引:1,自引:0,他引:1
采用积分方程法计算均匀半空间中三维异常体的大地电磁响应,然后利用阻尼最小二乘法反演得到地下三维异常体电阻率分布。在计算灵敏度矩阵时,将灵敏度矩阵分为线性项和体现反演过程非线性的偏微分项进行求解,提高了计算精度。理论模型反演结果表明,反演较准确,对初值依赖性小,且只针对异常体剖分单元进行反演,反演效率较高。 相似文献
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为了深入了解日本东北俯冲带的地震构造及火山活动,利用布设在日本列岛上密集地震台网所记录到的高质量浅震及深震到时数据,反演求得了该区域地壳及上地幔的三维P波和S波速度结构。为了最大程度地利用地震数据提取模型空间中更为精细的速度结构信息,采用不规则网格模型采进行地震层析成像反演。所得的高分辨率成像结果清晰地显示,2008年岩手地震(M 7.2)位于高低速异常的转换区,而且震源区的地壳介质非均匀性极强。在震源区的下地壳及上地幔顶部存在着明显的低速异常,可能代表了岛弧岩浆和流体在该深度处的储集。研究结果表明,2008年岩手地震的产生受到了来自上地幔楔的岩浆和流体的影响,且这些岩浆和流体与俯冲太平洋板块的脱水作用有着密切的联系。 相似文献
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The Ou Backbone Range strikes northwards through the central northeastern Japan arc and is bounded on both sides by the active reverse Uwandaira and Sen'ya faults. We have applied a traveltime inversion method (seismic tomography) with spatial velocity correlation to active and passive seismic data in order to investigate a three-dimensional (3-D) velocity structure. The data set contains 33,993 P- and 18,483 S-wave arrivals from 706 natural sources and 40 blasts, as well as 2803 P-wave traveltime data from 10 explosions detonated during the 1997 controlled source experiment. The traveltime inversion reveals a zone beneath the Ou Backbone Range in which P-wave velocities (VP) are approximately 6–8% lower than the average velocity at equivalent depths. The low VP and a low VP to S-wave velocity (VS) ratio (VP/VS) of about 1.65 suggest the presence of aqueous fluids in the middle crust. 相似文献
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We present a 3D S-velocity model for the crust and upper mantle of the South China Sea and the surrounding regions, constrained from the analysis of over 12,000 of fundamental Rayleigh wave dispersion curves between 10 s and 150 s periods. The lateral resolution was found to vary from 2° to 4° with the increasing period over the study region. A robust scheme of Debayle and Sambridge allowed us to conduct the tomographic inversion efficiently for massive datasets. Group velocity maps varying with period show lateral heterogeneities, well related to the geological and tectonic features in the study region. The 3D S-velocity model was constructed from the 1D structure inversion of the tomographic group velocity dispersion curves at each node. The obtained average crustal structure is similar to the PREM model, while the average mantle velocity is typically lower than the global average. The complicated 3D structures reveal three prominent features correlated with geological divisions: sea basin regions, island and arc regions, and continental regions. The derived crustal and lithospheric thicknesses range from ∼15 to >50 km and from ∼60 to >140 km, respectively, with the thinnest in the South China Sea, the thickest in eastern Tibet and the Yangtze Block, and the medium in the South China Fold Belt, Indochina, and island arc regions. Our results further confirm that (1) a Mesozoic subduction zone, which is interpreted as the tectonic weak zone during the Paleogene, exists along the South China margin; (2) the influence of the Indochina extrusion along the Red River Fault is limited for the South China Sea region; (3) there is a slab remnant of the proto-South China Sea beneath Borneo. New findings suggest that the Mesozoic subduction zone should be built into any evolution model for the region, as well as the other two major tectonic boundaries of the Red River Fault and proto-South China Sea subduction zone. 相似文献
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二维声波方程稳健迭代速度反演 总被引:1,自引:0,他引:1
从二维声波方程初、边值问题出发,通过引进一个广义幂指数误差分布函数,以及对波动方程的Lippman-Schwinger方程的解进行Bon近似,导出一个残差加权迭代最小二乘(稳健迭代)算法,进而实现对地下介质剖面的速度结构以演计算。模拟计算表明,本方法具有较高的精度和较强的抗干扰能力,是求解声波方程反演问题的一种有效方法,同时也为地下介质的速度分布成像提供一种新的技术。 相似文献
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全波形反演可以利用叠前地震波场的运动学和动力学信息重建地下速度结构,具有揭示复杂地质背景下构造与岩性细节信息的潜力。然而,庞大的计算量和存储空间需求,限制了全波形反演的发展。在频率多尺度全波形反演中将L BFGS数值优化算法与同时激发震源技术相结合的方法来改善这一现状。首先,对Marmousi模型进行了速度反演:在计算过程中明显发现对计算机内存的占用减少,最终反演结果与实际Marmousi模型的拟合误差为0.095 9,较小;采用10个频带单炮震源正演384炮所需时间约为32 640 s,而采用同时激发震源(384炮)正演一次所需时间仅约为700 s。然后,基于高速楔形体模型进行了抗噪能力研究:原始含噪地震记录信噪比为11.147 3 dB;对反演得到的速度模型进行正演,其地震记录信噪比为22.251 8 dB。最后,基于逆冲断层模型进行了反演速度扰动能力研究,反演得到的最终模型很清晰,与具有速度扰动特性的实际模型非常接近,拟合误差仅为0.036 0。数值模拟试验结果表明:此方法反演精度高,内存开销较小,能够显著提高计算效率,并且具有良好的抗噪能力,能够反演出具有速度扰动特性的介质。 相似文献
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《Journal of South American Earth Sciences》2000,13(1-2):3-19
Arrival-times of local events recorded in northern Chile and southern Bolivia were used to determine the P velocity structure above the subducted Nazca plate. The data were recorded between June and November 1994 by the French “Lithoscope” network: 41 vertical and 14 three-component short-period seismic stations were installed along a 700 km long profile crossing the main structures of the Andean chain, from the Coastal Cordillera to the Subandean Zone. The inversion method used is a modified version of Thurber’s 3D iterative simultaneous inversion code. The results were compared with a model obtained from previous German nearby refraction seismic studies and supplemented by field geological observations.The relocated seismicity is consistent with an ∼30° dipping slab between 0 and 170 km depth. We found a variation of about 30 km of the Moho depth along the profile. The crustal thickness is about 47 km under the Coastal Cordillera, 70 km under the Western Cordillera and the western part of the Eastern Cordillera, and 60–65 km beneath the Altiplano. Close to the surface, a good agreement between the velocity model and the geological structures is observed. Generally, in the upper crust, high velocities coincide with zones where basement is present near the surface. Low velocities are well correlated with the presence of very thick sedimentary basins or volcanic material. At greater depth, the trend of the velocity model is consistent with the existence of asymmetrical west-dipping imbricated blocks, overthrusting toward the east, which explain the asymmetrical pattern of the sedimentary basins. Beneath the Western Cordillera, the active volcanic arc, a large zone of low velocity is observed and interpreted to be due to partially molten material. A clear velocity contrast appears between the western and eastern parts of the upper mantle beneath the Andes; this geometry suggests the existence of a low velocity wedge in the mantle above the slab and the presence of a thick old lithosphere in the eastern part of the Andes. 相似文献
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通过瑞雷波频散曲线反演,可以建立近地表横波速度模型。瑞雷波频散曲线具有多个模态,一般情况下,基阶模态是具有最大能量的模态。目前对瑞雷波频散曲线的反演大多数是基于基阶模态,对于高阶模态的反演比较少。通过对基阶和高阶瑞雷波频散曲线反演对比分析,认为高阶模态和基阶模态频散曲线反演有比较好的一致性趋势,相对而言高阶模态频散曲线反演的横波速度比基阶要高;高阶和基阶模态能量加权反演,不仅保留了频散曲线基阶模态能量强,勘探深度深的特点,而且对浅层低速层也具有更好的响应,可有效提高反演的精度。 相似文献