共查询到19条相似文献,搜索用时 281 毫秒
1.
为了更好地利用浅剖资料进行浅剖解释工作,利用参量阵浅剖仪CW模式发射的短时连续波采集的浅地层剖面资料,经过资料特征分析,进行了预处理(包括数据拼接、延迟校正、球面扩散补偿、道间振幅均衡和大值干扰压制处理)。在预处理的基础上,首先提取资料的瞬时振幅(波形包络)并对其进行带通滤波,资料的低频成分突出,同相轴连续,分辨率适中,该处理结果适合用于构造解释。而后,对波形包络资料进行提频处理,在保留低频成分的同时突出高频成分,分辨率高,但在构造较陡部位同相轴连续性较差,该处理结果适合用于薄层砂体刻画。 相似文献
2.
海洋老地震资料匹配处理技术 总被引:2,自引:0,他引:2
根据海洋老地震资料联片处理中存在的振幅、频率等不一致性问题,详细论述了解决振幅、频率匹配的方法技术,提出了消除区块间多种不一致性的实用有效的处理流程.通过采用测井约束下的振幅一致性处理技术和匹配滤波统一子波处理技术,较好地解决了相邻区块不同年度地震资料联片处理中振幅和频率的匹配问题,并且在实际应用中取得了明显的效果. 相似文献
3.
浅地层剖面系统在海洋工程勘察、海洋矿产资源探测等方面发挥着重要的作用。美国EdgeTech公司生产的3200系列是一种应用较为广泛的Chirp信号浅地层剖面系统,该仪器原始记录的JSF格式数据与传统的SEGY地震数据格式存在很多不同的地方,具体体现在文件头和道头部分,特别是数据记录方式上它同时记录了包络信号和振幅信号两种类型的数据。因此,编写适用的C程序代码将JSF原始数据转换为包络信号和振幅信号两种类型的SEG-Y标准地震数据,并运用该程序读取并转换了南海北部某区域的实测浅剖数据,并分析了浅剖资料解释中采用包络信号数据的原因,为利用振幅信号数据反演海底反射系数等后续工作奠定了基础。 相似文献
4.
近年来,参量阵浅地层剖面以其简便的野外采集方式、高分辨率的浅部地层成像能力,迅速发展为海底浅层天然气水合物探测的有效方法。为了更好地获取东海浅层天然气水合物赋存区的地质信息,针对参量阵浅地层剖面数据开展了精细化处理。首先将异常振幅压制和空间振幅均衡等方法有机结合,解决了数据中的各种噪音和能量不均衡等问题,然后利用Hilbert变换提高地层分辨率,最后利用信号增强技术进一步提高同相轴连续性,获得了波组特征更清晰的地震剖面。处理后的参量阵浅地层剖面具有信噪比较高、连续性好、地层结构清晰等特点,可以更好地揭示空白带、气烟囱、亮点和火焰状异常等地震反射特征,为识别浅层天然气水合物赋存区地质信息奠定基础。对精细处理后的数据进一步开展曲率属性、瞬时振幅属性、相干属性等地震属性分析,结果显示,与浅层天然气水合物渗漏相关的声学异常能够被清晰地识别出来。此项研究一方面验证了参量阵浅地层剖面数据处理方法的可行性,另一方面也探索了属性分析技术在海底浅层天然气水合物识别方面的应用。 相似文献
5.
大量研究表明南海北部东沙海域的中生界地层具有很好的油气成藏条件, 是油气勘探的有利区域。但中生界地层构造成像不清晰限制了该区域油气资源的准确评价。本文利用在该海域采用单源单缆长排列采集的三维地震数据, 提出了对该类数据的优化处理技术方案, 以期获得中生界地层的清晰成像。处理过程主要包括各种噪音干扰和不同类型多次波的压制, 尤其是比较严重的海洋湍流干扰压制, 提高中深层反射信号信噪比; 通过压制气泡和压缩子波提高地震反射的分辨率; 同时利用高密度速度分析进行各向异性双谱非双曲线动校正, 提高成像质量, 使波组特征、振幅特征更为明显。针对密集二维采集数据特点, 通过合理的面元规则化处理, 使得覆盖次数均匀和横向分辨率提高, 实现高精度三维成像。本研究针对噪音干扰较严重的单源单缆长排列加密地震资料, 按照三维地震资料进行数据处理, 处理后明显突出了浅、中、深各层的有效信息, 特别是针对中生界的成像质量改善更为明显, 形成了一套行之有效的处理流程, 为今后邻近区块的勘探和资料处理提供了技术基础, 也为东沙海域的油气勘探与评价提供了科学依据。 相似文献
6.
湖相浊积岩体积小、粒度细、单层厚度薄、相变快,受上覆三角洲前缘厚层砂体的屏蔽作用、沉积规律以及现有地震资料分辨率的影响,湖相浊积砂体的地震预测技术一直难有突破。以东营凹陷牛20区块为例,利用地震沉积学方法和技术,将沉积模式与地震反射特征、时频分析技术相结合,以井点为约束,通过识别前积界面,建立了等时层序地层格架;提高地震资料的分辨率和实现地震相位具有岩性地层意义是识别和预测湖相浊积砂体的关键。在等时界面控制下,通过正演模拟方法,认为混合相位子波拓频技术和分频技术相结合可以有效提高地震资料的主频与分辨率,采用90°相位转换可以将反射波瓣提到地层的中心,实现地震相位的岩性地层意义,最终将地层切片与地震属性相结合实现了浊积砂体的有效识别和预测。 相似文献
7.
声学地层剖面深水探测研究与开发 总被引:1,自引:0,他引:1
深水浅部地层精细探测是深海地质勘探与资源开发的重要调查内容。与浅水海域声学地层剖面探测相比,深水地层剖面探测会遇到严重的能量衰减、大数据量长时间反射序列采样、纵向地层分辨率降低以及横向空间覆盖率偏稀等问题,为解决这些问题,国外仪器商采用了不同的方法。采取重采样减少数据量会严重影响纵向分辨率;采取MultiPing技术可以很好解决横向空间覆盖率问题,但多Ping接收采用海底追踪变深度范围采集会造成反射同相轴跳跃突变,或采用短时间间隔采集会造成回波数据无法准确计算海底深度。为了解决这些技术问题,作者研究开发了相关的技术处理方法,解决MultiPing技术反射同相轴拼接改正处理和海底深度记录延迟处理,这些问题的解决为深水浅部地层精细探测提供了技术保障。 相似文献
8.
地震勘探的BSR识别技术是发现海洋天然气水合物的最经济、快捷、方便、有效的方法.在地震处理识别上,对子波的精确处理是水合物地震资料处理中最关键的一个环节,采用最小平方误差准则,即利用实际输出与期望输出的误差平方和为最小的条件,来确定反滤波因子,因此又称为最小平方子波整形.在地震处理程序中引入三种期望输出,即俞氏子波、雷克子波、Buttworth子波,对子波零相位化有较好的效果.根据上面的原理,我们开发了一套最小平方反滤波地震处理软件,对天然气水合物地震勘探资料进行试处理的结果表明,该软件在提高分辨率的同时保持了较高的信噪比. 相似文献
9.
宁波沿海陆源排污口细菌结构多样性和铁代谢相关的毒力基因的研究 总被引:1,自引:1,他引:0
应用多重PCR技术对肠杆菌铁代谢相关毒力基因fhuA、irp2、sltA和sodB进行同步检测, 研究宁波沿海陆源排污口人畜共患致病菌群落结构在人类活动影响下的分布差异及对环境因子变化的响应趋势。通过16S rRNA 基因的PCR扩增和限制性片段长度多态性(restriction fragment length polymorphism, RFLP)分析技术, 研究了东海重要陆源排污口的细菌群落多样性; 建立肠杆菌铁载体外膜受体蛋白fhuA、铁调节蛋白irp2、类志贺样毒素sltA、含铁超氧物歧化酶sodB基因多重PCR体系, 并用该体系检测铁代谢相关毒力基因在陆源排污口的分布情况。2011年3、5、8、10月份, 在宁波沿海陆源排污口中共分离纯化1000余株、98种细菌, 16S rRNA 基因序列分析表明, 它们分属于4个门5个纲13个科21个属, 其中?-变形杆菌纲(67株, 68.4%)和芽孢杆菌纲(16株, 16.3%)分别为变形菌门、厚壁菌门中主要纲。98株细菌中, fhuA+irp2+sodB+基因型检出率为35.71%; fhuA+irp2+ sltA+的基因型检出率为25.27%; irp2的基因型检出率为13.19%; fhuA基因型检出率为12.09%; fhuA+ irp2+
基因型检出率为9.89%; sltA+sodB+基因型检出率为8.79%; fhuA+irp2+sodB+sltA+基因型检出率为8.79%。 相似文献
10.
认为合成地震振幅与记录地震振幅反演随AVA数据角度的变化,可用于评价与数据有关的各因素对预测弹性属性空间分布垂向分辨率及精度的影响程度。利用墨西哥湾中部深水油气藏测量数据生成合成地震振幅数据,并分别用合成振幅及记录地震振幅评价反演结果。详细的合成振幅敏感性分析结果表明,即使在最理想的状态下(完全偏移数据、各向同性介质、无噪声地震振幅数据、足够的远角度覆盖范围、以及准确估算的与角度有关的子波和低频成分),输入的弹性模型仍不能通过合成地震振幅准确重建。我们将这一结果归因于地震振幅数据较低的垂向分辨率。P-波阻抗是反演属性中最为准确的参数,其次为S-波阻抗和体密度。此外,足够的远角度覆盖范围对于准确估算一维线性S-波阻抗和体密度的分布至关重要。用于剩余动校正(NMO)效应的局部角度叠加时间排列有助于提高预测弹性属性空间分布的垂向分辨率并可稳定降低数据错合。最后,研究发现反演弹性参数分布的精度可通过以下方法得以显著提高:(1)通过多次单角度叠加增加AVA信息;(2)对用于计算局部角度叠加的P-波速度场进行校正;(3)剔除低信噪比的远角度数据。 相似文献
11.
Gutowski Martin Bull Jon Henstock Tim Dix Justin Hogarth Peter Leighton Tim White Paul 《Marine Geophysical Researches》2002,23(5-6):481-492
Chirp sub-bottom profilers are marine sonar systems which use a highly repeatable source signature to facilitate the acquisition of correlated data with decimetre vertical resolution in the top 20–30 m of sediments. Source signatures can be readily developed and implemented, but an applicable methodology for assessing resolution and attenuation characteristics of these wide-band systems did not exist. Methodologies are developed and applied to seven contrasting source signatures which occupy the same frequency band, but differ in their Envelope and Instantaneous Frequency functions. For the Chirp source signatures tested, a Sine-Squared envelope function is shown to produce seismic data with the optimum resolution and penetration characteristics. 相似文献
12.
A remote sediment classification technique based on attenuation measurements from Chirp sub-bottom profiler data is described. This differs from previously published work in that attenuation measurements are obtained for each stratigraphic unit within a complex, thinly interbedded sedimentary sequence. Compressional wave attenuation measurements are obtained for a wide variety of lithologies, including muds, silts, sands, clayey sands, silty clays and gravel lags, with grain sizes ranging from 8 Phi to -4 Phi. In addition, attenuation measurements from sub-bottom profiler data were calibrated against laboratory acoustic measurements of vibracores and seabed samples from corresponding geographic locations, under simulated in-situ conditions using a Pulse Tube method. We adapt an instantaneous frequency matching method using a causal attenuation filter to model the decay of the Chirp transmitted waveform. From this modelling, a relationship between t* (a causal attenuation operator) and change in instantaneous frequency is established. The Hilbert transform is used to extract instantaneous frequency information from Chirp seismic, which is used to derive attenuation information for selected individual stratigraphic layers imaged by the sub-bottom profiler. This paper draws attention to the limitations in comparing attenuation measurements derived from Chirp sub-bottom profiler data against previously published literature on experimental attenuation measurements, which are limited by the wide variance of these data, and the difficulty in finding a meaningful best fit to these data. This demonstrates the importance of calibrating remote sediment classification observations using complimentary acoustic analysis of seabed samples to generate a site-specific geoacoustic database. A positive correlation between laboratory and sub-bottom profiler attenuation measurements was obtained, with a correlation coefficient of 0.885. Poorly sorted gravels with a mixed lithic and biogenic pebble component are characterised by very high attenuation with values of Q from 4 to 19. These sediments are considerably coarser-grained than those typically described in previously published experimental studies. 相似文献
13.
Reflection Coefficient Calculation from Marine High Resolution Seismic Reflection (Chirp) Data and Application to an Archaeological Case Study 总被引:2,自引:0,他引:2
Chirp sub-bottom profilers produce high-resolution images of the near-surface. An attribute of the sea-bed reflection in chirp data are fluctuations in polarity between adjacent traces. Two models are proposed and presented to explain this: the first incorporates changes in an acoustic impedance gradient at the sea bed; the second uses changes in the thickness of the uppermost sediment layer. Mixing of adjacent traces produces a consistent polarity for the sea-bed reflector. Reflection coefficients are calculated, using amplitude information derived from single-traces, and polarity information from trace mixing, with application to a marine archaeological case study. The reflection coefficient calculated for the top of a buried 18th century wooden wreck is -0.26. 相似文献
14.
Jonathan M. Bull Martin Gutowski Justin K. Dix Timothy J. Henstock Peter Hogarth Timothy G. Leighton Paul R. White 《Marine Geophysical Researches》2005,26(2-4):157-169
Chirp sub-bottom profilers are marine acoustic devices that use a known and repeatable source signature (1–24 kHz) to produce
decimetre vertical resolution cross-sections of the sub-seabed. Here the design and development of the first true 3D Chirp
system is described. When developing the design, critical factors that had to be considered included spatial aliasing, and
precise positioning of sources and receivers. Full 3D numerical modelling of the combined source and receiver directivity
was completed to determine optimal source and receiver geometries. The design incorporates four source transducers (1.5–13 kHz)
that can be arranged into different configurations, including Maltese Cross, a square and two separated pairs. The receive
array comprises 240 hydrophones in 60 groups whose group-centres are separated by 25 cm in both horizontal directions, with
each hydrophone group containing four individual elements and a pre-amplifier.
After careful consideration, it was concluded that the only way to determine with sufficient accuracy the source–receiver
geometry, was to fix the sources and receivers within a rigid array. Positional information for the array is given by a Real
Time Kinematic GPS and attitude system incorporating four antennas to give position, heading, pitch and roll. It is shown
that this system offers vertical positioning accuracy with a root-mean-square (rms) error less than 2.6 cm, while the horizontal
positioning rms error was less than 2.0 cm. The system is configured so that the Chirp source signature can be chosen by software
aboard the acquisition vessel.
The complete system is described and initial navigational and seismic data results are presented. These data demonstrate that
the approach of using fixed source-receiver geometry combined with RTK navigation can provide complete 3D imaging of the sub-surface. 相似文献
15.
Chirp sonar systems can be used to obtain high resolution seismic reflection images of the sub-seafloor during marine surveys. The exact knowledge of the Chirp signature allows the use of deterministic algorithms to process the data, similarly to that applied to Vibroseis data on land. Here, it is described an innovative processing sequence to be applied to uncorrelated Chirp data, which can improve vertical and lateral resolution compared to conventional methods. It includes application of a Wiener filter to transform a frequency-modulated sweep into a minimum-phase pulse sequence. In this way, the data become causal and can undergo predictive deconvolution to reduce ringing and enhance vertical resolution. Afterwards, FX-deconvolution and Stolt migration can be applied to obtain an improved imaging of the subsurface. The result of this procedure is a seismic reflection image with higher resolution than traditional ones, which are normally represented using the envelope function of the signal. This technique can be particularly useful for engineering-geotechnical surveys and archaeological investigations that require a fine detail imaging of the uppermost meters of the sub-seafloor. 相似文献
16.
全海洋浅地层剖面仪及其应用 总被引:1,自引:0,他引:1
全海洋浅地层剖面仪(Topographic Parametric Sonar,TOPAS)PS 018系统是目前世界上最先进的浅地层剖面仪之一。该系统是全海洋宽带非线性差频浅地层剖面仪,可对海底地层进行全方位测量,同时还兼有测量水深的功能,最大地层穿透深度为150 m,最小分辨率为0.3 m。系统多种发射信号(Ricker波、Burst波和Chirp波)的选取方便了操作者使用,从理论上实现了全海洋测量功能。从实测剖面分析,该系统是中、深水地层测量的理想测量系统。 相似文献
17.
为探讨浅地层剖面声学影像形成原理,探索不同类型沉积物声学影像特征,厘清不同沉积物厚度的识别算法,采用模块化设计理念研发一套新型浅地层剖面仪室内试验平台。综合室内定位技术、浅剖试验平台尺寸合理性分析技术、直线轨道与换能器之间的固定连接技术和海底声学参数反演技术,形成一个试验高效的新型平台。通过铺设沉积物和布设障碍物,利用浅地层剖面仪进行走航测试,精确识别了沉积物的厚度和障碍物的位置。该平台可为开展理想环境下沉积物厚度和障碍物识别提供较好的测试环境,为声学海洋设备性能检测提供测试平台,也为高校学生和技术人员提供设备使用培训场所。 相似文献
18.
