共查询到20条相似文献,搜索用时 31 毫秒
1.
讨论了不同水合物胶结类型的流体饱和多孔隙固体中地震波的衰减情况,分析了估算天然气水合物和游离气饱和度影响因素.结果表明, 地层孔隙度、纵波速度模型和弹性模量的计算方法是影响反演水合物和游离气饱和度的关键因素.含水合物地层的吸收与水合物胶结类型密切相关,当水合物远离固体颗粒,像流体一样充填在孔隙时,品质因子出现负异常,而当水合物胶结固体颗粒影响骨架的弹性性质,其品质因子出现正异常.根据布莱克海台地区164航次995井的测井资料,分别应用低频和高频速度模型估算了水合物和游离气饱和度.由低频速度模型得到的水合物饱和度(占孔隙空间的)10%~20%,游离气饱和度(占孔隙空间的)05%~1%;而由高频速度模型得到的水合物饱和度(占孔隙空间的)5%~10%,游离气饱和度(占孔隙空间的)1%~2%. 相似文献
2.
南海北部神狐海域GMGS-1钻探揭示SH3井天然气水合物位于稳定带上部,厚度约为10 m.氯离子异常计算的水合物饱和度最高达26%,高水合物饱和度层出现高电阻率和低纵波速度.为分析该低纵波速度异常,本文基于简化的三相介质理论计算了饱和水纵波速度,在深度195 m附近,测量的纵波速度小于饱和水纵波速度.利用阿尔奇公式,基于原位温度、盐度、密度孔隙度和测量的电阻率,利用交会分析确定了该井的阿尔奇常数为a=1.1和m=2.3.基于该参数,利用阿尔奇方程计算的水合物饱和度占孔隙空间5%~20%,局部地层水合物饱和度达26.8%,在垂向上分布不均匀.由于钻探可能导致水合物发生分解而产生游离气,原位游离气和水合物分解产生的气体都能造成低纵波速度异常.由于地震资料采集在测井之前完成,利用不同速度制作合成地震记录并与地震资料进行对比,能够确定水合物稳定带上部的低速异常形成原因. 相似文献
3.
Physical property anisotropy of foliated fault rocks: Study from the Nobeoka Thrust,Shimanto Belt,southwest Japan 
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下载免费PDF全文 Mari Hamahashi Wataru Tanikawa Yohei Hamada Yoshitaka Hashimoto Saneatsu Saito Gaku Kimura 《Island Arc》2018,27(5)
To investigate the physical property anisotropies of foliated fault rocks in subduction zones, the hanging wall phyllites and footwall cataclasites exhumed along the Nobeoka Thrust, a fossilized out‐of‐sequence‐thrust in the Shimanto Belt, Japan, was focused. Discrete physical property (electric resistivity, P‐ and S‐wave velocities, and porosity) measurements were conducted employing geologic coordinates (depth‐parallel direction, strike direction, and maximum dip direction of foliation), using the core samples obtained from the Nobeoka Thrust Drilling Project and compared the data to borehole geophysical logs. A higher sample P‐wave velocity (Vp), lower S‐wave velocity (Vs), higher Vp/Vs, and lower sample porosity and resistivity compared to the logs, are inferred to have been caused by the larger sampling scale of the logs and lower fluid saturation of the borehole. The phyllites and cataclasites exhibited substantial vertical and horizontal anisotropy of Vp (0.4–17.3 % and 2.7–13.8 %, respectively), Vs (0.5–56 % and 7.7–43 %, respectively), and resistivity (0.9–119 % and 2.0–65.9 %, respectively). The physical property anisotropies are primarily affected by the dip angles of foliation. The fault rocks that have gentler dip angles exhibit a higher Vp in the strike and maximum dip direction and a lower Vp in the depth‐parallel direction. In contrast, the fault rocks that have steeply dipping structures show a higher Vp in the strike and depth‐parallel directions with a lower velocity in the maximum dip direction. Resistivity anisotropy show a trend opposite to that of the Vp in relation to the dip angles. Our results show lower Vp anisotropy than those obtained in previous studies, which measured wave speeds perpendicular or parallel to foliation under confining pressure. This study highlights the significance of dip angles on vertical properties in geophysical surveys across foliated fault rocks. 相似文献
4.
墨西哥湾GC955H井钻遇两种不同的水合物储层,浅层裂隙充填型水合物和深层砂岩型水合物.浅层水合物充填在细粒泥质沉积物的裂隙中,由电阻率测井计算的饱和度平均值为25%.深层水合物充填在砂岩孔隙中,由电阻率计算的饱和度平均为65%.基于声波全波形数据,本文计算了GC955H井储层的声波衰减大小,结果发现两种水合物层对声波衰减的影响不同.泥岩水合物层中的声波衰减与上覆背景泥岩沉积层基本相当.砂岩水合物层的声波衰减大于0.1,最大0.15,远高于上覆和下伏的背景砂岩层.对声波频率的分析发现,GC955H井泥岩层中水合物对声波频率的影响不大,砂岩水合物层的声波频谱与上下背景砂岩层相比发生变化,主频增大.通过对比两种水合物储层的特征,本文初步定性分析了造成水合物对储层声波传播影响不同的原因,包括岩性、水合物饱和度、水合物赋存方式等;但对此的定量描述需要未来更详尽地讨论和研究水合物的声波衰减机制. 相似文献
5.
沿裂隙发育的天然气水合物是印度深水盆地细粒沉积物中水合物的重要产出方式,水合物以结核状或脉状充填在高角度裂隙中.天然气水合物主要沿着构造主应力方向生成,由于裂隙的存在,含水合物的沉积物层呈现各向异性.利用孔隙介质中水合物呈均匀分布的速度模型计算的NGHP01-10D井水合物饱和度高达40%,而压力取芯表明水合物饱和度占孔隙空间的20%左右.为了研究水合物饱和度差异,基于层状介质的各向异性模型计算了裂隙充填型水合物的饱和度.在垂直井孔中,由于波入射角与裂隙倾角有关,考虑裂隙倾角变化,利用纵波和横波速度同时反演水合物饱和度和裂隙倾角.利用层状介质模型计算的水合物占孔隙空间的15%~25%,裂隙的倾角在60°~90°,多为高角度裂隙.在NGHP01-10D井中,纵横波速度联合计算的饱和度与压力取芯结果吻合更好. 相似文献
6.
Improved estimates of the amount of subsurface gas hydrates are needed for natural resource, geohazard, and climate impact assessments. To evaluate gas hydrate saturation from seismic methods, the properties of pure gas hydrates need to be known. Whereas the properties of sediments, specifically sands, and hydrate‐bearing sediments are well studied, the properties of pure hydrates are largely unknown. Hence, we present laboratory ultrasonic P‐wave velocity and attenuation measurements on pure tetrahydrofuran hydrates as they form with reducing temperatures from 25°C to 1°C under atmospheric pressure conditions. Tetrahydrofuran hydrates, with structure II symmetry, are considered as proxies for the structure I methane hydrates because both have similar effects on elastic properties of hydrate‐bearing sediments. We find that although velocity increased, the waveform frequency content and amplitude decreased after the hydrate formation reaction was complete, indicating an increase in P‐wave attenuation after hydrate formation. When the tetrahydrofuran hydrate was cooled below the freezing point of water, velocity and quality factor increased. Nuclear Magnetic Resonance results indicate the presence of water in the “pure hydrate” samples above the water freezing point, but none below. The presence of liquid water between hydrate grains most likely causes heightened attenuation in tetrahydrofuran hydrates above the freezing point of water. In naturally occurring hydrates, a similarly high attenuation might relate to the presence of water. 相似文献
7.
The porosity may be overestimated or underestimated when calculated from conventional logs and also underestimated when derived
from nuclear magnetic resonance (NMR) logs due to the effect of the lower hydrogen index of natural gas in gas-bearing sandstones.
Proceeding from the basic principle of NMR log and the results obtained from a physical rock volume model constructed on the
basis of interval transit time logs, a technique of calculating porosity by combining the NMR log with the conventional interval
transit time log is proposed. For wells with the NMR log acquired from the MRIL-C tool, this technique is reliable for evaluating
the effect of natural gas and obtaining accurate porosity in any borehole. In wells with NMR log acquired from the CMR-Plus
tool and with collapsed borehole, the NMR porosity should be first corrected by using the deep lateral resistivity log. Two
field examples of tight gas sandstones in the Xujiahe Formation, central Sichuan basin, Southwest China, illustrate that the
porosity calculated by using this technique matches the core analyzed results very well. Another field example of conventional
gas-bearing reservoir in the Ziniquanzi Formation, southern Junggar basin, Northwest China, verifies that this technique is
usable not only in tight gas sandstones, but also in any gas-bearing reservoirs. 相似文献
8.
Giuliana Rossi Davide Gei Gualtiero Böhm Gianni Madrussani José M. Carcione 《Geophysical Prospecting》2007,55(5):655-669
We estimate the quality factor (Q) from seismic reflections by using a tomographic inversion algorithm based on the frequency‐shift method. The algorithm is verified with a synthetic case and is applied to offshore data, acquired at western Svalbard, to detect the presence of bottom‐simulating reflectors (BSR) and gas hydrates. An array of 20 ocean‐bottom seismographs has been used. The combined use of traveltime and attenuation tomography provides a 3D velocity–Q cube, which can be used to map the spatial distribution of the gas‐hydrate concentration and free‐gas saturation. In general, high P‐wave velocity and quality factor indicate the presence of solid hydrates and low P‐wave velocity and quality factor correspond to free‐gas bearing sediments. The Q‐values vary between 200 and 25, with higher values (150–200) above the BSR and lower values below the BSR (25–40). These results seem to confirm that hydrates cement the grains, and attenuation decreases with increasing hydrate concentration. 相似文献
9.
天然气水合物稳定带下方游离气分布模式、气体含量及其对水合物富集成藏的指示是水合物研究中的难点,而利用振幅随偏移距变化(Amplitude Versus Offset,AVO)与岩石物理模型能够对游离气含量进行地震定量解释.我们对印度Krishna-Godavari(K-G)盆地的地震资料进行了叠前保幅处理,在测井数据和层位标定的基础上,基于等效介质岩石物理模型和AVO正演模拟定量估算了NGHP01-10A井的游离气饱和度,发现水合物下方的游离气饱和度与其分布模式有关.游离气呈均匀分布时饱和度为孔隙空间的0.3%~0.4%,而块状分布时为3%~4%,该结果与NGHP01-10D实测计算的泊松比交汇分析结果吻合很好.最后再根据干燥岩石骨架的泊松比反演结果进一步判断游离气分布为均匀分布,其饱和度为0.3%~0.4%. 相似文献
10.
含水合物松散沉积物的声学特性对海上天然气水合物地球物理勘探和资源评价具有重要意义.研制了适用于高压条件下含水合物沉积物声学特性探测的纵横波一体化新型弯曲元换能器,提出利用频谱分析(FFT)和小波分析(WT)相结合的方法获取纵横波速度,并进行了多个轮次的水合物声学特性模拟实验研究.结果表明,新型弯曲元技术可以灵敏探测松散沉积物中水合物的生成和分解,随着水合物饱和度(Sh)的增大,纵横波速度呈规律性增长:当Sh<25%时,纵横波速度增长较快,水合物可能胶结沉积物颗粒生成;25%~60%之间,声速增长较为缓慢,水合物可能与沉积物颗粒呈接触关系;在Sh>60%时声速随着水合物饱和度增加又快速增长,表明水合物可能重新胶结沉积物颗粒生成. 相似文献
11.
José M. Carcione Davide Gei Giuliana Rossi Gianni Madrussani 《Geophysical Prospecting》2005,53(6):803-810
We estimate the concentration of gas hydrate and free gas at an area located to the north of the Knipovich Ridge (western Svalbard margin). The method is based on P-wave velocities computed by reflection tomography applied to multicomponent ocean-bottom seismometer data. The tomographic velocity field is fitted to theoretical velocities obtained from a poro-elastic model based on a Biot-type approach (the interaction between the rock frame, gas hydrate and fluid is modelled from first physical principles). We obtain average hydrate concentrations of 7% and maximum free-gas saturations of 0.4% and 9%, depending on the saturation model. 相似文献
12.
《Earth and Planetary Science Letters》2006,241(1-2):211-226
We present an equilibrium model of methane venting through the hydrate stability zone at southern Hydrate Ridge, offshore Oregon. Free gas supplied from below forms hydrate, depletes water, and elevates salinity until pore water is too saline for further hydrate formation. This system self-generates local three-phase equilibrium and allows free gas migration to the seafloor. Log and core data from Ocean Drilling Program (ODP) Site 1249 show that from the seafloor to 50 m below seafloor (mbsf), pore water salinity is elevated to the point where liquid water, hydrate and free gas coexist. The elevated pore water salinity provides a mechanism for vertical migration of free gas through the regional hydrate stability zone (RHSZ). This process may drive gas venting through hydrate stability zones around the world. Significant amount of gaseous methane can bypass the RHSZ by shifting local thermodynamic conditions. 相似文献
13.
Ida L. Fabricius Christian Høier Peter Japsen Uffe Korsbech 《Geophysical Prospecting》2007,55(4):487-506
In impure chalk, the elastic moduli are not only controlled by porosity but also by contact‐cementation, resulting in relatively large moduli for a given porosity, and by admixtures of clay and fine silica, which results in relatively small moduli for a given porosity. Based on a concept of solids suspended in pore fluids as well as composing the rock frame, we model P‐wave and S‐wave moduli of dry and wet plug samples by an effective‐medium Hashin–Shtrikman model, using chemical, mineralogical and textural input. For a given porosity, the elastic moduli correspond to a part of the solid (the iso‐frame value) forming the frame of an Upper Hashin–Shtrikman bound, whereas the remaining solid is modelled as suspended in the pore fluid. The iso‐frame model is thus a measure of the pore‐stiffness or degree of cementation of the chalk. The textural and mineralogical data may be assessed from logging data on spectral gamma radiation, density, sonic velocity and water saturation in a hydrocarbon zone, whereas the iso‐frame value of a chalk may be assessed from the density and acoustic P‐wave logs alone. The iso‐frame concept may thus be directly used in conventional log‐analysis and is a way of incorporating sonic‐logging data. The Rigs‐1 and Rigs‐2 wells in the South Arne field penetrate the chalk at the same depth but differ in porosity and in water saturation although almost the entire chalk interval has irreducible water saturation. Our model, combined with petrographic data, indicates that the difference in porosity is caused by a higher degree of pore‐filling cementation in Rigs‐1. Petrographic data indicate that the difference in water saturation is caused by a higher content of smectite in the pores of Rigs‐1. In both wells, we find submicron‐size diagenetic quartz. 相似文献
14.
Using wavelet‐domain adaptive filtering to improve signal‐to‐noise ratio of nuclear magnetic resonance log data from tight gas sands 下载免费PDF全文
下载免费PDF全文 In tight gas sands, the signal‐to‐noise ratio of nuclear magnetic resonance log data is usually low, which limits the application of nuclear magnetic resonance logs in this type of reservoir. This project uses the method of wavelet‐domain adaptive filtering to denoise the nuclear magnetic resonance log data from tight gas sands. The principles of the maximum correlation coefficient and the minimum root mean square error are used to decide on the optimal basis function for wavelet transformation. The feasibility and the effectiveness of this method are verified by analysing the numerical simulation results and core experimental data. Compared with the wavelet thresholding denoise method, this adaptive filtering method is more effective in noise filtering, which can improve the signal‐to‐noise ratio of nuclear magnetic resonance data and the inversion precision of transverse relaxation time T2 spectrum. The application of this method to nuclear magnetic resonance logs shows that this method not only can improve the accuracy of nuclear magnetic resonance porosity but also can enhance the recognition ability of tight gas sands in nuclear magnetic resonance logs. 相似文献
15.
随着南海北部陆坡天然气水合物勘探工作的深入开展,在南海北部陆坡天然气水合物勘探区典型的集中了钻孔、探针和BSR三种测量方式获得的热流数据.为了解海底热流不同测量方式的差异,以及南海北部陆坡水合物勘探区的热流特征,文章以SH-2和SH-5孔作为典型站位,分别介绍三种热流测量方法并对两个站位的不同类型热流进行对比分析,结果表明:(1)在SH-2孔处探针热流与钻孔热流基本一致,但在SH-5孔处探针热流明显低于钻孔热流;采用钻孔实测沉积物平均热导率计算的SH-2和SH-5两个站位处的BSR热流都与相应钻孔热流基本一致.(2)根据地震剖面及相邻位置探针热流特征分析,SH-5站位处探针热流明显偏低,可能是受到流体活动的影响.(3)相对SH-2孔,SH-5孔具有较高的地温梯度和热流特征,可能是SH-5钻孔未钻到水合物的重要原因,而晚期泥底辟侵入可能是造成SH-5孔具有较高的温度场并导致原本赋存的水合物分解的原因. 相似文献
16.
Understanding fracture orientations is important for optimal field development of fractured reservoirs because fractures can act as conduits for fluid flow. This is especially true for unconventional reservoirs (e.g., tight gas sands and shale gas). Using walkaround Vertical Seismic Profiling (VSP) technology presents a unique opportunity to identify seismic azimuthal anisotropy for use in mapping potential fracture zones and their orientation around a borehole. Saudi Aramco recently completed the acquisition, processing and analysis of a walkaround VSP survey through an unconventional tight gas sand reservoir to help characterize fractures. In this paper, we present the results of the seismic azimuthal anisotropy analysis using seismic traveltime, shear‐wave splitting and amplitude attenuation. The azimuthal anisotropy results are compared to the fracture orientations derived from dipole sonic and image logs. The image log interpretation suggests that an orthorhombic fracture system is present. VSP data show that the P‐wave traveltime anisotropy direction is NE to SW. This is consistent with the cemented fractures from the image log interpretation. The seismic amplitude attenuation anisotropy direction is NW to SE. This is consistent with one of the two orientations obtained using transverse to radial amplitude ratio analysis, with the dipole sonic and with open fracture directions interpreted from image log data. 相似文献
17.
海洋天然气水合物可控源电磁法的响应特征:一维正演模拟 总被引:1,自引:1,他引:0
We discuss the feasibility of using controlled-source electromagnetic (CSEM) in the frequency domain for prospecting marine gas hydrates. Based on the Ocean Drilling Program (ODP) Leg 164 log data, we have established several 1-D resistivity models which have different gas hydrate concentrations. Meanwhile, we analyzed the electromagnetic response of marine gas hydrates in the frequency domain based on these models. We also studied the relationship between electrical field magnitude or phase and parameters such as receiver-transmitter distance and frequency. Our numerical modeling results provide us with a quantitative reference for exploration and resource evaluation of marine gas hydrates. 相似文献
18.
天然气水合物饱和度是评估天然气水合物资源量的重要参数,而用来估算饱和度的速度模型则是有限的几个,它们有的为经验公式,有的是以实验数据或野外资料为基础建立起来的,需要进行实验验证和参数分析以确定其使用的适用性.本文首次利用超声和时域反射联合探测技术,研究了沉积物中水合物饱和度与声学特性的关系,并对时间平均方程、伍德及其修正方程、李权重方程和BGTL(Biot-Gassmann Theory by Lee)理论等常用的水合物饱和度估算模型进行了验证.实验结果表明,超声和时域反射联合探测技术能有效地实时获得水合物饱和度和纵、横波速的实验数据,李权重方程和BGTL理论的速度预测值与实验值比较吻合,有广泛的适用性. 相似文献
19.
We obtain the wave velocities and quality factors of gas‐hydrate‐bearing sediments as a function of pore pressure, temperature, frequency and partial saturation. The model is based on a Biot‐type three‐phase theory that considers the existence of two solids (grains and gas hydrate) and a fluid mixture. Attenuation is described with the constant‐Q model and viscodynamic functions to model the high‐frequency behaviour. We apply a uniform gas/water mixing law that satisfies Wood's and Voigt's averages at low and high frequencies, respectively. The acoustic model is calibrated to agree with the patchy‐saturation theory at high frequencies (White's model). Pressure effects are accounted by using an effective stress law for the dry‐rock moduli and permeabilities. The dry‐rock moduli of the sediment are calibrated with data from the Cascadia margin. Moreover, we calculate the depth of the bottom simulating reflector (BSR) below the sea floor as a function of sea‐floor depth, geothermal gradient below the sea floor, and temperature at the sea floor. 相似文献
20.
We describe a method to invert a walkaway vertical seismic profile (VSP) and predict elastic properties (P‐wave velocity, S‐wave velocity and density) in a layered model looking ahead of the deepest receiver. Starting from Bayes's rule, we define a posterior distribution of layered models that combines prior information (on the overall variability of and correlations among the elastic properties observed in well logs) with information provided by the VSP data. This posterior distribution of layered models is sampled by a Monte‐Carlo method. The sampled layered models agree with prior information and fit the VSP data, and their overall variability defines the uncertainty in the predicted elastic properties. We apply this technique first to a zero‐offset VSP data set, and show that uncertainty in the long‐wavelength P‐wave velocity structure results in a sizable uncertainty in the predicted elastic properties. We then use walkaway VSP data, which contain information on the long‐wavelength P‐wave velocity (in the reflection moveout) and on S‐wave velocity and density contrasts (in the change of reflectivity with offset). The uncertainty of the look‐ahead prediction is considerably decreased compared with the zero‐offset VSP, and the predicted elastic properties are in good agreement with well‐log measurements. 相似文献