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1.
波浪作用下粘质粉砂底床性态变化的试验研究 总被引:12,自引:0,他引:12
利用不同波高条件下的波浪水槽试验,对现行黄河水下三角洲粘粉砂底床的性态变化进行了研究。试验中观测了底床土体孔隙水压力的变化和扰动破坏区与未成动破坏区之间在波浪作用下的性态差异。结果分析表明,土体孔隙水压力受波高要素影响较大;扰动破坏区含水量减小和容重增加现象比未扰动破坏区明显。在扰动破坏区经波浪长时间作用后形成凹坑塌陷,此结果对认识黄河三角洲上凹坑塌陷的形成过程有借鉴意义。 相似文献
2.
近年来,在各种近海建筑物的建设中,桩基础被越来越广泛地应用。关于海床内桩基各层位对波浪动力响应相位差的研究,国内外学者研究的重点主要集中在海床内各层位孔隙水压力的相位变化。而关于波浪作用下海床各层位土体总压力相位的研究则很少。本研究采用波浪水槽实验,在土床未扰动和土床扰动液化两种工况下,分别施加不同波高的波浪,对底床各层位土体总压力的相位进行对比研究。实验结果表明,当土体未运动时,在渗透性和饱和度均匀的土体中,各层位土体之间不存在相位差。当底床液化后,土体出现显著分层现象,在液化土层和不动土层间存在显著的相位差。此时,总压力振幅呈现先增大后减小的现象,且在床面下-10cm处出现最大值。 相似文献
3.
黄河水下三角洲塌陷凹坑构造形成的水槽试验研究 总被引:9,自引:3,他引:6
黄河三角洲沉积物以粉土为主,在黄河水下三角洲发现大量的塌陷凹坑微地貌,平面形态以封闭的圆形或椭圆形为主,直径为10~30m,凹坑内扰动土体与下部稳定土体界面呈向上凹的圆弧面。通过室内波浪对粉土底床作用的水槽试验,发现波浪可以使粉土底床浅表部分土体振荡运动,底床发生振荡运动土体处形成凹坑,凹坑内土体表层为落淤黏土,下部为粗化粉土。据此分析黄河水下三角洲塌陷凹坑构造形成的一种模式是:在风暴浪侵蚀作用阶段,局部浅表土体发生振荡运动从而产生凹坑,凹坑内扰动土体因波浪的振荡作用而离析溢出细粒黏土成分,从而形成比周围物质成分粗的土体;在静水状态下,凹坑内表层落淤细粒黏土,形成下粗上细的二元结构,凹坑内沉积物呈透镜体状。黄河水下三角洲塌陷凹坑的形态规模对研究风暴作用具有很好的指示意义。 相似文献
4.
风暴浪导致的黄河口水下土体破坏试验研究 总被引:5,自引:0,他引:5
本文试验利用取自黄河水下三角洲的样品 ,重塑后铺设水槽底床进行水槽试验 ,并利用原状土进行动三轴试验 ,2种试验均测定土体内的孔隙水压力。根据各种情况下孔隙水压力的变化记录 ,表明土体破坏同时其孔隙水压力产生骤变。将本文试验结果与在黄河水下三角洲不稳定区的原位沉积动力学试验孔隙水压力测试结果对照 ,说明黄河三角洲水下斜坡某些土体的破坏 ,未出现波浪循环荷载作用下孔隙水压力积累升高所导致的土体液化破坏 ,而是风暴浪对海底的强切应力作用致使土体产生剪切破坏 相似文献
5.
《中国海洋大学学报(自然科学版)》2015,(5)
以黄河三角洲粉质土底床为研究对象,通过水槽模拟试验,研究了不同波高波浪荷载作用下底床的破坏过程与特点。研究发现,波浪导致粉质土底床在孔压累积和剪应力耦合作用下由表及里破坏;在波浪作用下粉质土底床破坏过程分为土体扩展过程和土体恢复过程,在扩展过程中,破坏土体与波浪同步振荡,边界不断扩展直至极限深度。在恢复过程中,破坏土体振荡由深到浅逐渐停止,稳定后出现细粒土夹层;破坏土体的长度﹑深度和体积间呈幂函数关系,破坏土体的范围主要由深度决定;波浪作用停止后,动力固结不足的原破坏土体在新一轮波浪作用下可能会再次破坏;基于极限平衡理论对波致粉质土底床的破坏深度范围进行了初步的预测,并与试验结果进行了对比分析。 相似文献
6.
以黄河口海底粉土为研究对象,利用自行研发的监测设备现场监测了波浪作用下海底粉土的孔隙水压力响应过程,获取了2个大风过程中孔隙水压力的有效数据。波浪作用下海底粉土的孔隙水压力响应由表层土最先开始,向下层土延伸,且响应程度随着土层深度的增加而减弱。孔隙水压力响应特征受潮位与波高影响明显,潮位影响孔隙水压力响应的整体趋势而波高影响孔隙水压力响应的幅值,且海底粉土孔隙水压力对波高的响应具有滞后性,滞后时间约为2 h。大风过程中海底面以下1.5 m以深孔隙水压力未发现明显变化,说明其超过了波浪最大作用深度;海底面以下0.5 m位置处孔隙水压力在一段时间内产生剧烈振荡,无明显的累积现象,说明其处于波浪作用范围内,但波浪作用导致的孔隙水压力小于土体孔隙水压力的消散速率。 相似文献
7.
以黄河口海底粉土为研究对象,利用自行研发的监测设备现场监测了波浪作用下海底粉土的孔隙水压力响应过程,获取了2个大风过程中孔隙水压力的有效数据。波浪作用下海底粉土的孔隙水压力响应由表层土最先开始,向下层土延伸,且响应程度随着土层深度的增加而减弱。孔隙水压力响应特征受潮位与波高影响明显,潮位影响孔隙水压力响应的整体趋势而波高影响孔隙水压力响应的幅值,且海底粉土孔隙水压力对波高的响应具有滞后性,滞后时间约为2 h。大风过程中海底面以下1.5 m以深孔隙水压力未发现明显变化,说明其超过了波浪最大作用深度;海底面以下0.5 m位置处孔隙水压力在一段时间内产生剧烈振荡,无明显的累积现象,说明其处于波浪作用范围内,但波浪作用导致的孔隙水压力小于土体孔隙水压力的消散速率。 相似文献
8.
调查发现在黄河和密西西比河水下三角洲的塌陷凹坑地貌中存在有块体,有研究表明此塌陷凹坑由波浪作用下海底土体的液化形成。液化土体中存在的块体,在运动中会对海底结构物产生强烈的冲击作用,并导致液化后的海底工程地质性质不均匀。海底液化的土体中块体存在及其原因尚未有研究解释。本文以粉质土铺设底床,进行了2次底床固结时间不同的波致液化的水槽试验。通过测试底床的贯入阻力和分析玻璃珠在液化土体中的沉降分布状态,认为土体固结时间长,形成结构性块体,是液化土体中存在块体的原因。 相似文献
9.
波浪会对海床产生反复的作用力,由此引起的土体颗粒间孔隙水压力变化是造成土体液化的主要原因。使用自行研发的孔压监测设备,对黄河口埕岛海域易液化区海底孔压进行了长时间、高精度的观测,并对孔隙水压力、波高以及潮位间的关系进行分析。监测结果显示,本次监测条件下波浪最大作用深度介于0.5~1.5 m之间,超过该作用深度后孔压无明显变化。土体内部孔隙水压力的变化主要由潮位和波高决定,潮位的作用可使孔压缓慢平滑的变化且对超孔压无影响;波高的作用可使孔压快速、剧烈地振荡并导致超孔压的出现。 相似文献
10.
《海洋地质与第四纪地质》2014,(5)
黄河三角洲海床沉积物质为粉质土,在大的风暴浪作用下海底浅表粉质土能够发生液化,形成塌陷凹坑。以黄河三角洲粉质土铺设底床,进行液化粉质土形成塌陷的波浪水槽试验,在底床粉粒和砂粒不随水流脱离液化区的前提下,对形成塌陷量的贡献因素进行了分析。根据试验数据,估算了黏粒迁移析出与液化区底床密度增大对液化致塌陷凹坑的贡献度,得出黏粒迁移析出贡献一般大于55%。试验还发现在波浪作用下粉质土液化后黏粒发生迁移,原均质底床黏粒含量在垂向上出现2个分段特点的重新分布,分段点处于水土界面、底床液化最终界面和最大液化界面上,每段以上少下多分布。 相似文献
11.
The impact of wave loads and pore-water pressure generation on initiation of sediment transport 总被引:3,自引:0,他引:3
Edward C. Clukey Fred H. Kulhawy Philip L. -F. Liu George B. Tate 《Geo-Marine Letters》1985,5(3):177-183
The build-up of pore-water pressure by waves can lead to sediment liquefaction and subsequent transport by traction currents. This process was investigated by measuring pore-water pressures both in a field experiment and laboratory wave tank tests. Liquefaction was observed in the wave tank tests. The results suggest that sand is less susceptible than silts to wave-induced liquefaction because of the tendency to partially dissipate pore-water pressures. However, previous studies have determined that pore-water pressures must approach liquefaction before current velocities necessary to initiate transport are reduced. Once liquefaction has occurred more sediment can be transported. 相似文献
12.
破碎波对近海海岸地形以及海岸建筑物影响强烈,通过物理模型实验对孤立波、规则波作用下破碎带的床面形态以及孔隙水压力进行分析。破碎波冲击海床,破碎处床面上形成沙坝和沙坑,与规则波相比,孤立波破碎时对床面的冲刷更加剧烈,床面形成的沙坝和沙坑尺度更大,且土体内孔隙水压力幅值也较大。同时研究了波面变化对孔隙水压力的影响,发现波面变化历时曲线与孔隙水压力历时曲线相似,与孔隙水压力梯度历时曲线更为相似,说明波面变化更能反映海床内部孔隙水压力梯度的变化。通过探讨波浪与海床之间相互耦合作用,发现破碎带地形变化使得波浪出现不同破碎类型,分析得出卷破波比崩破波作用下孔隙水压力幅值大。 相似文献
13.
C. J. Garrison 《Applied Ocean Research》1989,11(4):194-201
It is common practice to compute wave-induced loads on the immersed surface of gravity structures exposed to the wave motion and disregard the pore-water pressure variation on the foundation surface. However, when the soil is porous, wave-induced pressures propagate within the soil under the structure and result in a rather significant contribution to overall loads. This paper describes a practical method for numerical modeling of the pore pressure under a gravity platform foundation for compressible water and a rigid, but porous soil. The porous soil may be bounded by an impermeable horizontal layer at some arbitrary depth.
The paper outlines the basic boundary element procedure for pore pressure analysis and presents numerical results for a typical gravity structure as well as results for comparison with an existing analytical solution for a vertical circular cylinder. 相似文献
14.
《Coastal Engineering》1999,38(2):53-90
This paper presents the results of an experimental study where the sinking and floatation of a pipeline and other objects (namely, a sphere and a cube) in a silt bed was investigated. The bed was exposed to progressive waves. Two kinds of experiments were made: The undisturbed-flow experiments, and the experiments with the structure model (a pipeline, a sphere, and a cube). In the former experiments, the pore-water pressure was measured across the soil depth. The pore-water pressure built up, as the waves progressed. The soil was liquefied for wave heights larger than a critical value. Regarding the experiments with the structure model, the displacement of the structure (sinking or floatation) was measured simultaneously with the pore-water pressure. The influence of various parameters (such as the initial position of the object, the specific gravity, the soil layer thickness, and the wave height) was investigated. It was found that while the pipe sank in the soil to a depth of 2–3 times the pipe diameter, the sphere sank to even larger depths. The pipe with a relatively small specific gravity, initially buried, floated to the surface of the soil. The drag coefficients for the objects sinking in the liquefied soil were obtained. 相似文献
15.
波浪加载下海底土质特性变化的研究 总被引:3,自引:0,他引:3
通过不同的制样方法 ,在水槽中模拟了多种海底在波浪作用下的变化行为。试验发现 ,加压排水固结的砂质粉土海底在波浪作用下较稳定 ;加压不产生排水而固结的砂质粉土海底易受波浪的冲刷 ;自然条件和轻微振动的砂质粉土海底最易受到波浪的扰动破坏 ,形成塌陷凹坑。粘粒含量较高的粉质粘土对波浪的反映不敏感 ;下卧软土层土体在上覆压力下的变形量与含水量关系密切 ,含水量越高 ,变形越大。试验结果证明 ,波浪会引起沉积物性质发生改变 ,也是引起海底形态变化的主要原因。 相似文献
16.
Chun-Ming Lin Yan-Li Li Hong-Chun Zhuo George W. Shurr Jennie L. Ridgley Zhi-Ping Zhang Tao Xue 《Marine and Petroleum Geology》2010,27(4):909-922
Late Quaternary shallow biogenic gas reservoirs have been discovered and exploited in the Qiantang River (QR) estuary area, eastern China. The fall of global sea level during the Last Glacial Maximum resulted in the formation of the QR incised valley. From bottom to top, the incised valley successions can be grouped into four sedimentary facies: river channel facies, floodplain–estuarine facies, estuarine-shallow marine facies, and estuarine sand bar facies.All commercial biogenic gas pools occur in floodplain–estuarine sand bodies of the QR incised valley and its branches. The deeply incised valleys provided favorable conditions for the generation and accumulation of shallow biogenic gas.The clay beds that serve as the direct cap beds of the gas pools are mostly restricted within the QR incised valley, with burial depths ranging from 30 to 80 m, remnant thicknesses of 10–30 m, and porosities of 42.2–62.6%. In contrast, the mud beds cover the whole incised valley and occur as indirect cap beds, with burial depths varying from 5 to 35 m, thicknesses of 10–20 m, and porosities of 50.6–53.9%. The pore-water pressures of clay and mud beds are higher than that of sand bodies, and the difference can be as much as 0.48 MPa. The pore-water pressures of clay or mud beds can exceed the total pore-water pressure and gas pressure of underlying sand reservoirs. Shallow biogenic gas can be completely sealed by the clay and mud beds, which have higher pore-water pressure. The direct cap beds have better sealing ability than the indirect cap beds.Generally, the pore-water pressure dissipation time of clay and mud beds is conspicuously longer than that of sand beds. This indicates that the clay and mud beds have worse permeability and better sealing ability than the sand beds. However, once the gas enters the sand lenses, the pore-water pressure cannot release efficiently. 相似文献
17.
基于1987年和1988年夏季在古镇口港直立堤前的实测资料,对波浪和波压力连续记录进行了统计分析和谱估计,研究了在堤前海浪不发生破碎条件下,堤前波浪和堤面不同高程上压力波的波面高度概率分布、堤前波浪波高和周期与波压力幅度和周期的概率分布特征、入射波行近提前过程中的谱变化及堤面不同高程上压力谱的变化特征。主要结果总结在本文最后一节。 相似文献
18.
基于秘鲁钱凯港的防波堤三维整体模型试验结果,研究了涌浪绕射、透射联合作用对港内波况的影响。分析了不同波向、不同谱峰周期的入射波条件下港内不同功能区的波况分布规律,并对比分析了具有不同周期的入射波对港内不同区域波高的影响,兼顾分析了波向的影响。结果表明,在涌浪作用下,受透射、绕射影响,不同入射波条件下港内比波高分布规律相关性较好,距离口门越近、入射波波长越长,港内比波高越大;入射波周期对港内波况影响的差异和对波向的敏感性因港内不同区域而不同;防波堤阻挡效果好的波向,其入射波对港内的影响较小;对于受防波堤掩护性较好的内侧泊位,应重点关注泊位处的低频波浪对系泊的影响。 相似文献
19.
Diagenesis in the uppermost Jurassic to Lower Cretaceous deltaic sandstones and shales of the Scotian Basin is an important control on reservoir quality. Ferruginous zone (sub-oxic) marine pore-water diagenesis controls the initial formation of Fe2+-silicates that are the precursors of grain-rimming chlorite that preserves porosity. This study assesses the regional controls on the type of marine pore-water diagenesis by studying the sedimentology, mineralogy, and geochemistry of the retrogradational units and underlying progradational units in parasequences from conventional cores in two wells in different parts of the basin. Coated grains preserve a record of whether marine pore-water diagenesis below the seafloor was dominantly in the ferruginous or sulphidic geochemical zone. Four types of coated grain were distinguished, each with a different mineral paragenesis. Mineralogical and chemical evidence of ferruginous zone diagenesis includes the presence of diagenetic chlorite and siderite, and the correlation of P with Fe or Ti. Pyrite and Fe-calcite are found where the sulphidic zone is more significant than the ferruginous zone. Ferruginous zone diagenesis was common in low-sedimentation rate retrogradational sediments with low organic carbon, and in delta-front turbidites and river-mouth sandstones. Estuarine, tidal flat and prodeltaic facies that are directly supplied by riverine sediments have a lower Fe:Ti ratio than do fully marine shoreface and open shelf facies as a result of input of detrital ilmenite and its alteration products. The relative contribution of colloidal iron (hydr)-oxides appears greater in distal low-sedimentation rate environments. Where large changes in sedimentation rate occurred at ravinement surfaces, the underlying progradational rocks have evidence of ferruginous zone diagenesis, whatever their facies. Rapid upward migration of the pore-water profile resulting from the change in sedimentation rate reduced the time available for mineral products to form in the deeper pore-water zones. This study has shown that the availability of Fe and organic carbon varying in a complex manner in marine deltaic sediments, but that the resulting diagenesis by marine pore-water can be predicted from facies and paleogeographic setting. 相似文献