共查询到20条相似文献,搜索用时 78 毫秒
1.
Seismic velocity is important to migration of seismic data,interpretation of lithology and lithofacies as well asprediction of reservoir.The information of shear wave velocity is required to reduce the uncertainty for discrimi-nating lithology,identifying fluid type in porous material and calculating gas saturation in reservoir prediction.Based on Zoeppritz equations,a numeral and scanning method was proposed in this paper.Shear wave velocitycan be calculated with prestack converted wave data.The effects were demonstrated by inversion of theoreticaland real seismic data. 相似文献
2.
AttenuationofstresswaveinsandstoneDao-YingXI;Yong-LaiZHENGandTaoZHANG(席道瑛,郑永来,张涛)(DepartmentofEarthandSpaceSciences,Universit... 相似文献
3.
4.
HOU Yijun GUO Peifang SONG Guiting SONG Jinbao YIN Baoshu & ZHAO Xixi . Institute of Oceanology Chinese Academy of Sciences Qingdao China . Graduate University of the Chinese Academy of Sciences Beijing China 《中国科学D辑(英文版)》2006,49(4):443-448
1 Introduction The probability distribution of ocean wave element is one of the results of application of random process theory to the ocean wave study. A great amount of outcome has obtained in this field[1,2]. In fact, a great deal of research on linear… 相似文献
5.
Introduction Head wave is one of the main phases of local seismic arrivals, and it is important in the study of the crustal structure and the physical characteristics of the transition-zone between the crust and the mantle. So far, the kinetic characteristics of head wave such as arrival time have been widely used, while the dynamic characteristics of head wave like amplitude were usually ignored al-though it includes more information of the structure. In this article, we shall investigate the… 相似文献
6.
WU Yongfu & XU Jiyao Laboratory for Space Weather Center for Space Science Applied Research Chinese Academy of Sciences Beijing China 《中国科学D辑(英文版)》2005,48(10)
Gravity waves play a significant role in establishing the large-scale circulation and structure of the middle atmosphere. Through gravity wave saturation proc-esses, such motions are believed to cause turbulence, resulting in divergence of momentum flux and the diffusion of heat and constituents in the meso-sphere[1,2]. The mechanisms that contribute signifi-cantly to the gravity wave saturation are thought to be the dynamical and convective instabilities[3]. However, it is difficult to distin… 相似文献
7.
Theoreticalresearchesonthree-dimensionalcodawavescatteringproblemYong-AnNIE;JianZENGandDe-YiFENG(聂永安,曾健,冯德益)(SeismologicalBur... 相似文献
8.
A two-dimensional (2-D) model of a building supported by a rectangular, flexible foundation embedded in the soil is analyzed. The building, the foundation, and the soil have different physical properties. The building is assumed to be linear, but the soil and the foundation can experience nonlinear deformations. While the work spent for the development of nonlinear strains in the soil can consume a significant part of the input wave energy—and thus less energy is available for the excitation of the building—the nonlinear response in the soil and the foundation does not signficantly alter the nature of excitation of the base of the building. It is noted that the response of a building can be approximated by translation and torsion of the base for excitation by long, strong motion waves. 相似文献
9.
The earth media friction attenuates the energy of seismic wave. Obviously, that earth medium is treated as viscoelasticity is more appropriate than as elasticity. Seismic wave in visco-elastic media contains abundant lithology information of the medium. The investiga-tions of the solutions of visco-elastic wave equations, velocities of seismic wave propagating and the at-tenuation of seismic wave in the visco-elastic media are very important for geophysical prospecting tech-nology. Under a sma… 相似文献
10.
Soil shear wave velocity (SWV) is an important parameter in geotechnical engineering. To measure the soil SWV, three methods are generally used in China, including the single-hole method, cross-hole method and the surface-wave technique. An optimized approach based on a correlation function for single-hole SWV measurement is presented in this paper. In this approach, inherent inconsistencies of the artificial methods such as negative velocities, and too-large and too- small velocities, are eliminated from the single-hole method, and the efficiency of data processing is improved. In addition, verification using the cross-hole method of upper measuring points shows that the proposed optimized approach yields high precision in signal processing. 相似文献
11.
《Advances in water resources》2006,29(8):1196-1208
12.
The characteristic of seismic coda wave attenuation in Yunnan area in 7 frequency-bands range from 1 Hz to 20 Hz was estimated by using the local earthquake's waveform data recorded from 22 Yunnan digital seismic stations.Coda attenuation Q-c1 of each station was firstly calculated by single scattering method. Then, mean free path Le and seismic albedo Bo of each station were calculated, and scattering attenuation Q-1s and intrinsic attenuation Q-1i were separated from total attenuation Q-1t by multiple lapse time window analysis based on the multiple scattering model in uniform random isotropic scattering medium. The attenuating characteristics in Yunnan show that most value of Le are in 10~30 km, with maximal within 2~6 Hz;Bo are about 0.5 at 1~2 Hz, but less than 0.5at other frequency-bands, which means Q-1i is comparable with Q-1s at 1~2 Hz, and after 1~2 Hz, Q-1i is greater than Q-1s and dominates the attenuation process. Q-1c is close to Q-1i at other frequency bands except 1~2 Hz.Results show that Q-1 especially Qs-1 varies spatially, Q-1 in eastern Yunnan zone is a bit higher than in northwestern Yunnan zone;northwestern Yunnan zone higher than southwestern Yunnan zone. Comparing with other results in global, Qs-1 in Yunnan is lower than the global average value among these results, Q-1i is higher than the global average value, and Q-1t lies the middle among these results. 相似文献
13.
The D″ layer, located at the bottom of the mantle, is an active thermochemical boundary layer. The upwelling of mantle plumes, as well as possible plate subduction in the D″ layer, could lead to large-scale material transformation and mineral deformation, which could result in significant seismic anisotropy. However, owing to limited observations and immense computational cost, the anisotropic structures and geodynamic mechanisms in the D″ layer remain poorly understood. In this study, we proposed a new inversion method for the seismic anisotropy in the D″ layer quantitatively with shear wave splitting intensities. We first proved the linearity of the splitting intensities under the ray-theory assumption. The synthetic tests showed that, with horizontal axes of symmetry and ray incidences lower than 30º in the D″ layer (typical SKS phase), the anisotropy is well resolved. We applied the method to the measured dataset in Africa and Western Europe, and obtained strong D″ anisotropy in the margins of the large low shear-wave velocity provinces and subducting slabs. The new method makes it possible to obtain D″ anisotropy, which provides essential constraints on the geodynamical processes at the base of the mantle. 相似文献
14.
3-D acoustic wave equation forward modeling with topography 总被引:1,自引:1,他引:1
In order to model the seismic wave field with surface topography, we present a method of transforming curved grids into rectangular grids in two different coordinate systems. Then the 3D wave equation in the transformed coordinate system is derived. The wave field is modeled using the finite-difference method in the transformed coordinate system. The model calculation shows that this method is able to model the seismic wave field with fluctuating surface topography and achieve good results. Finally, the energy curves of the direct and reflected waves are analyzed to show that surface topography has a great influence on the seismic wave's dynamic properties. 相似文献
15.
FiniteelementsimulationofsteadystateSHwavemotionZhen-PengLIAO(廖振鹏)andGuangYANG(杨光)(InstituteofEngineeringMechanics,StateSeism... 相似文献
16.
Introduction Geoelectrical field is a kind of intrinsic geophysical field of the earth, affected by kinds of current systems in outer space and electric properties of media underground, so it carries abundant interior information of the earth. Since 1981 when the group of “VAN” in Greece carried out the study of electric field observation by multi-polar distances (Varotsos and Alexopoulous, 1984a, b), more and more scientists in the world paid extensive attention to it due to its better re… 相似文献
17.
A three-dimensional finite volume unstructured mesh model of the west coast of Britain, with high resolution in the coastal regions, is used to investigate the role of wind wave turbulence and wind and tide forced currents in producing maximum bed stress in the eastern Irish Sea. The spatial distribution of the maximum bed stress, which is important in sediment transport problems, is determined, together with how it is modified by the direction of wind forced currents, tide–surge interaction and a surface source of wind wave turbulence associated with wave breaking. Initial calculations show that to first order the distribution of maximum bed stress is determined by the tide. However, since maximum sediment transport occurs at times of episodic events, such as storm surges, their effects upon maximum bed stresses are examined for the case of strong northerly, southerly and westerly wind forcing. Calculations show that due to tide–surge interaction both the tidal distribution and the surge are modified by non-linear effects. Consequently, the magnitude and spatial distribution of maximum bed stress during major wind events depends upon wind direction. In addition calculations show that a surface source of turbulence due to wind wave breaking in shallow water can influence the maximum bed stress. In turn, this influences the wind forced flow and hence the movement of suspended sediment. Calculations of the spatial variability of maximum bed stress indicate the level of measurements required for model validation. 相似文献
18.
The influence of wave–bedform feedbacks on both the initial formation of shoreface-connected sand ridges (sfcr) and on grain
size sorting over these ridges on micro-tidal inner shelves is studied. Also, the effect of sediment sorting on the growth
and the migration of sfcr is investigated. This is done by applying a linear stability analysis to an idealized process-based
morphodynamic model, which simulates the initial growth of sfcr due to the positive coupling between waves, currents, and
an erodible bed. The sediment consists of sand grains with two different sizes. New elements with respect to earlier studies
on grain sorting over sfcr are that wave-topography interactions are explicitly accounted for, entrainment of sediment depends
on bottom roughness, and transport of suspended sediment involves settling lag effects. The results of the model indicate
that sediment sorting causes a reduction of the growth rate and migration speed of sfcr, whereas the wavelength is only slightly
affected. In the case where the entrainment of suspended sediment depends on bottom roughness, the coarsest sediment is found
in the troughs; otherwise, the finest sediment occurs in the troughs. Compared to previous work, modeled maximum variations
in the mean grain size over the topography are in better agreement with field observations. Settling lag effects are important
for the damping of high-wavenumber mode instabilities such that a preferred wavelength of the bedforms is obtained. 相似文献
19.
20.
Introduction According to the Rapid Earthquake Information Release of CNDSN (Department of Earth- quake Monitoring and Prediction, China Earthquake Administration, 2002), an earthquake with surface wave magnitude MS=8.1 shook west of Kunlun Mountain Pass (KMP) at the juncture of Xinjiang, Qinghai and Xizang on November 14, 2001. This is the largest and the only MS>8.0 earthquake in Chinese mainland over 50 years since the August 15, 1950 MS=8.6 (MW=8.6) Chayuearthquake in Tibeta… 相似文献