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1.
随钻地震(SWD)的波场十分复杂,对钻头有效信号和地表机械干扰成分的分析是SWD重要的资料预处理步骤.本文利用有效信号和噪声带有周期性或时延差异等时间结构特征,引入相关域小波变换进行SWD信号检测和分析.有效信号在钻柱内往复多次传播,因而带有严格的周期性,泥浆泵等机械发出的噪声也是周期性的,这些成分在自相关域内可以得到很好的凸显.SWD波场的各种成分,由于到达各个接收道的时延不同,在互相关域的特定时延处也能够得到凸显.利用小波变换对这些在相关域内得到凸显的成分进行多分辨分析,能够获得优势频率范围、周期、衰减等主要特征.根据这些信息,设计出合理的SWD处理方法,初步得到了有效信号的直达波.数据试处理结果表明,相关域小波变换是随钻地震的一个有效的预处理方法. 相似文献
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钻井过程中钻头对井底的冲击振动为钻头前方地层的探测提供了震源,可用来消除钻井过程中的地质不确定性和降低钻井风险.本研究在分析井下钻头振动信号特点的基础上,根据现代地震观测技术的新发展,将多道勘探地震仪和流动数字地震仪的性能进行了对比分析,将天然地震的观测设备和分析方法应用到随钻地震检测中,提出了一套新的随钻地震检测方案,利用高灵敏度流动数字地震仪连续检测钻井过程中的钻头振动信号,初步现场试验表明该技术方案可行,获得的信号信噪比高,易于钻井工程师掌握,为随钻地震技术提供了新的技术路线. 相似文献
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随钻地震参考信号处理的关键是从众多噪音成分中提取较弱的钻头源信号.钻头随机激励源信号由于其频率范围宽,持续时间短,易受钻柱和其他机器噪音的影响.倒谱分析方法是一种非线性滤波技术,该技术不但可以将时域卷积信号转变为倒时域信号的相加,而且通过窗函数的选择,还可消除结构混响,提取源信号.本文根据钻柱模拟实验数据,利用了倒谱滤波技术进行瞬态源信号的提取,并用该方法进行SWD参考信号的处理,从而达到钻头源信号强化的目的. 相似文献
4.
幅度大的钻铤波掩盖地层信号是困扰随钻声波测井技术的难题,认识钻铤波特性对于消除或有效降低钻铤波至关重要.记录岩石动电效应引起电磁场的随钻动电测井,被认为有望彻底解决钻铤波干扰问题.本文采用有限差分法,模拟不同钻铤、不同井孔结构的随钻声场,对比分析了单极源钻铤波的传播特性,阐明存在伴随钻铤波动电信号的原因.结果表明:钻铤声波在沿钻铤传播时向外部介质辐射能量,透过井壁进入地层的具有视钻铤波速度的声波,与地层纵横波一样可发生动电转化,因而可导致随钻动电测井时产生钻铤波速度的电磁信号.计算还表明,高频情况下,随钻声波测井钻铤波呈现两阶模式:具有低频截止频率的高阶钻铤波幅度较小,其速度略低于钻铤纵波速度;无截止频率的低阶钻铤波幅度较大,其波速在高频时甚至低于钻铤横波速度.这种频散特性和多阶模式特性,是径向多分层开波导结构的导波属性. 相似文献
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为防止沿钻铤传播的声信号掩盖来自地层的声信号,目前需在钻铤上刻槽以实现对地层纵、横波速度的测量.但刻槽不仅占用钻铤空间,且降低了钻铤的强度和刚度.本文探讨在不刻槽条件下,利用动电效应获得地层纵横波速度的可行性.为此,模拟了随钻声波测井信号及由岩石动电效应产生的电场信号.先视地层为黏弹性介质,模拟随钻声波测井信号,再利用围压与孔隙流体压强的关系获得了声波在地层中引起的孔隙压强,然后计算由孔隙地层动电效应产生的声诱导电磁场.对多极声源激发的声场波形及其诱导电场的波形进行比较,发现随钻声诱导电场中钻铤波的相对幅度明显小于随钻声场中钻铤波的相对幅度.此外,发现在慢速地层条件下,偶极声源激发的电场中出现了比较明显的地层横波信号. 相似文献
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为防止沿钻铤传播的声信号掩盖来自地层的声信号,目前需在钻铤上刻槽以实现对地层纵、横波速度的测量.但刻槽不仅占用钻铤空间,且降低了钻铤的强度和刚度.本文探讨在不刻槽条件下,利用动电效应获得地层纵横波速度的可行性.为此,模拟了随钻声波测井信号及由岩石动电效应产生的电场信号.先视地层为黏弹性介质,模拟随钻声波测井信号,再利用围压与孔隙流体压强的关系获得了声波在地层中引起的孔隙压强,然后计算由孔隙地层动电效应产生的声诱导电磁场.对多极声源激发的声场波形及其诱导电场的波形进行比较,发现随钻声诱导电场中钻铤波的相对幅度明显小于随钻声场中钻铤波的相对幅度.此外,发现在慢速地层条件下,偶极声源激发的电场中出现了比较明显的地层横波信号. 相似文献
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随钻声波测井主要是采用四极子技术来测量软地层的横波速度,但在超软地层的横波测量方面仍然面临挑战.随钻四极子声源会分别激发出沿着钻铤和地层传播的螺旋模式导波,其中四极子钻铤波存在截止频率,即只有在该频率以上才能激发出钻铤波.当钻铤波截止频率降低到与地层波测量频段接近时,会干扰地层波信号的测量,尤其是在疏松的软地层这一干扰现象相当严重.数值模拟和现场实测数据分析结果表明:四极子钻铤波的截止频率主要取决于仪器接收器阵列位置的钻铤壁厚,而对声源与接收器之间的刻槽隔声体以及钻铤外地层介质不敏感.在此基础上,本文利用一种等效的随钻声波测井简化模型来分析与设计钻铤波截止频率与钻铤尺寸关系的理论图版.该理论图版可用于指导随钻四极子横波测井仪器钻铤尺寸的优化设计和数据处理,进而获得高质量的地层波信号以及准确的横波速度. 相似文献
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现有的随钻声波测井通常采用三种测量方式:单极子、偶极子及四极子测量模式.分别采用单极子源、偶极子源和四极子源激发单极子、偶极子和四极子信号对地层速度信息进行测量.由于随钻测井环境比较复杂,钻杆在井孔中占据大部分空间,钻杆速度高于地层速度,导致接收到的信号中仪器波能量占主导,无法有效地提取地层的纵横波速度信息.本文探讨一种采用非对称偏心的点声源,一次激发,利用方位分布的四个接收器接收,经过合成后同时分别得到单极子、偶极子和四极子模式波信号的测量方法,为建立同时利用多极模式波信号测量地层纵横波速度的随钻声波测井实用技术提供基础.本文利用1:12的缩比模型在实验室对该方法进行了考察,实验结果证明,可以通过非对称点声源得到有效的地层单极子、偶极子和四极子模式波信号.通过分析和对比实测数据和理论模拟的频散曲线,本文进一步提出利用三种模式波的频散曲线联合反演确定地层横波速度的方法. 相似文献
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冲击作用下地层振动衰减规律的现场试验研究 总被引:2,自引:0,他引:2
对郑州某胶质土层采用振冲法处理地基时产生的振动影响进行了现场试验,分析不同数目钻机同时施工时引起的振动在各层土体中的衰减规律以及波的传播规律,评价振动对周边建筑物的影响.研究表明:采用振冲法施工时,地基会产生较大的振动,这种振动在地表和地层内部衰减较快冲击振动产生的振动波主要以两种途径传播:(1)沿钻孔壁形成面波,并很... 相似文献
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We revisit the equations governing the bending motions in thin rods and analyse the filtration of flexural waves in vertical drill strings pre‐stressed by gravity. The aim is to study transverse drill‐string vibrations at seismic frequencies for acoustic communication purposes and provide an algorithm for processing reflected and transmitted bending motions generated by downhole lateral vibrations. We obtain the dispersion equation, including attenuation due to a gravity pre‐stress gradient and frequency‐dependent reflection and transmission coefficients at the interface between subsequent tube intervals. We then develop a propagation‐matrix algorithm to simulate flexural waves in a drill string consisting in an assembly of multiple tube sections of different dimensions. The deflection vibrations are obtained at any arbitrary recording point in the drill string. The modelling is cross‐checked with a full‐wave grid algorithm. The analysis shows that the waves produced by a concentrated force are partitioned in standing and propagating modes, which are calculated by using the flexural impedance of the drill string. Moreover, the reflection coefficients weakly depend on the pre‐stress conditions and pre‐stress has important effects for far‐field signal transmission with variable weight on bit (WOB). We discuss the approximations and limits of the method with respect to realistic drilling conditions. 相似文献
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A new transmitting pattern, a buried non-symmetrical electric dipole in a conducting half space, is treated theoretically. A simple formula for the stationary current field of this pattern is derived from the Laplace equation and it is confirmed by the laboratory experiments and a well site experiment. This formula gives the upper limit of the electrical signal strength at the surface, transmitted from the bottom of a drill string. 相似文献
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M. Fred Strauss Steve L. Story Norman E. Mehlhorn 《Ground Water Monitoring & Remediation》1989,9(2):63-71
Dual-wall reverse-circulation drilling uses flush-threaded double-wall drill pipe and high-pressure air to provide continuous return of formation and water samples. Cuttings and formation waters are not contaminated with drilling additives or mixed with other borehole material. Up-hole velocity of about 70 ft/sec provides reliable logging of water, mineral or contaminant-bearing strata. Water samples representative of specific strata may be airlifted or bailed to the surface.
In the percussion hammer system, dual-wall drill pipe is advanced through chiefly unconsolidated material by the percussion action of an above-ground pile hammer. The borehole is drilled and temporarily cased in one pass. Wells or monitoring devices are installed as the drill pipe is hydraulically retracted during construction. A rotary head may be adapted as an option to allow dual-wall rotary drilling into consolidated or crystalline formations through a percussion hammer drill string temporarily left in place as a conductor.
The complex geology and variety of geoenvironmental problems in southern California has provided a testing ground for dual-wall drilling on hazardous material site investigations. Several case histories have demonstrated the capabilities and versatility of this method, including: (1) the installation of 4-inch and 6-inch diameter gasoline monitoring and recovery wells through gravels and cobbles at a filling station where hollow-stem auger drilling failed; (2) the confirmation of a dry borehole initially drilled by direct rotary at a landfill; and (3) multiple installations of monitoring devices through municipal refuse at a city of Los Angeles landfill. 相似文献
In the percussion hammer system, dual-wall drill pipe is advanced through chiefly unconsolidated material by the percussion action of an above-ground pile hammer. The borehole is drilled and temporarily cased in one pass. Wells or monitoring devices are installed as the drill pipe is hydraulically retracted during construction. A rotary head may be adapted as an option to allow dual-wall rotary drilling into consolidated or crystalline formations through a percussion hammer drill string temporarily left in place as a conductor.
The complex geology and variety of geoenvironmental problems in southern California has provided a testing ground for dual-wall drilling on hazardous material site investigations. Several case histories have demonstrated the capabilities and versatility of this method, including: (1) the installation of 4-inch and 6-inch diameter gasoline monitoring and recovery wells through gravels and cobbles at a filling station where hollow-stem auger drilling failed; (2) the confirmation of a dry borehole initially drilled by direct rotary at a landfill; and (3) multiple installations of monitoring devices through municipal refuse at a city of Los Angeles landfill. 相似文献
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利用加速度计进行近钻头井斜动态测量时,钻具的高速旋转,井下强振动、强冲击环境给重力加速度测量带来极大干扰,如何从干扰噪声中有效提取重力加速度信号对于提高井斜角和工具面角的测量精度至关重要.根据重力加速度径向和切向分量为周期性信号,轴向分量为近似直流信号,离心加速度为缓慢变化信号,振动和冲击加速度为随机信号的特征,提出一种基于互相关检测的重力加速度信号提取方法,选择径向或切向磁力计信号作为参考信号.利用相关检测方法分别对仿真数据、实验室旋转测试数据和振动测试数据进行处理,并计算了井斜角和工具面角,结果表明相关检测方法可以有效提取重力加速度信号,基于MEMS加速度计的井斜角测量精度优于0.5°,工具面角变化连续平滑,满足井斜动态测量需求.通过进一步开展实际钻井环境测试,该方法有望应用于近钻头地质导向系统或旋转导向钻井系统等需要近钻头井斜动态测量的场合. 相似文献
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Bedrock groundwater dynamics in headwater catchments are poorly understood and poorly characterized. Here, we present an inexpensive and portable bedrock drilling system designed for use in remote locations. Our system is capable of drilling bedrock wells up to 11 m deep and 38 mm in diameter in a wide range of bedrock types. The drill consists of a lawn mower engine adapted to rotate a diamond tipped coring bit, a small water pump to cool and flush the drill bit and a scaffolding platform for stable footing on steep slopes. The complete drilling assembly costs under $ 2000 USD. Here, we show proof‐of‐concept of our approach with 40 successful wells drilled in different geological substrates, including a conglomerate at the Maimai experimental catchment in New Zealand, volcanic breccias at the HJ Andrews experimental watershed in Oregon, USA, sandstone and siltstone at the Alsea watershed in Oregon, USA, and basalt at the Los Gavilanes experimental watershed in Veracruz, Mexico. We also present a transparent comparison between our design and other portable bedrock drilling systems and outline the strengths and weaknesses of each system. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
16.
Jeffrey C. Barrow 《Ground Water Monitoring & Remediation》1994,14(2):153-160
The resonant sonic drilling method offers unique capabilities to the environmental restoration market. By using a drill head that imparts high-frequency, high-force vibrations into a steel drill pipe, continuous, relatively undisturbed cores can be taken through virtually any formation. The resonant sonic method requires no mud, air, water, or other circulating medium for penetration: drills very fast; easily drills at any angle through formations such as rock, clay, sand, boulders, permafrost, or glacial till; and yields no cuttings in the drilling process. Case histories of projects using the method demonstrate excellent results but also indicate several problem areas with the method in its present state. Expanding research efforts to further develop the resonant sonic drilling method should help solve current drawbacks, and could produce a drilling technology for environmental work that significantly changes the way monitoring wells are drilled and constructed. 相似文献
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Measurement of stream cross section using ground penetration radar with Hilbert–Huang transform 
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下载免费PDF全文 This study presents a new method to measure stream cross section without having contact with water. Compared with conventional measurement methods which apply instruments such as sounding weight, ground penetration radar (GPR), used in this study, is a non‐contact measurement method. This non‐contact measurement method can reduce the risk to hydrologists when they are conducting measurements, particularly in high flow period. However, the original signals obtained by using GPR are very complex, different from studies in the past where the measured data were mostly interpreted by experts with special skill or knowledge of GPR so that the results obtained were less objective. This study employs Hilbert–Huang transform (HHT) to process GPR signals which are difficult to interpret by hydrologists. HHT is a newly developed signal processing method that can not only process the nonlinear and non‐stationary complex signals, but also maintain the physical significance of the signal itself. Using GPR with HHT, this study establishes a non‐contact stream cross‐section measurement method with the ability to measure stream cross‐sectional areas precisely and quickly. Also, in comparison with the conventional method, no significant difference in results is found to exist between the two methods, but the new method can considerably reduce risk, measurement time, and manpower. It is proven that the non‐contact method combining GPR with HHT is applicable to quickly and accurately measure stream cross section. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献