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波浪作用下海底斜坡滑动稳定性分析中,一般未考虑海底坡度引起的波浪浅水效应,即不考虑波浪在斜坡面上的变形导致的波压力变化,降低了其计算结果的可靠性。本文基于沿斜坡面传播的线性波浪理论,考虑波浪的浅水效应,利用波浪与重力作用下海底斜坡的有效应力场,计算海底斜坡滑动稳定性安全系数。在验证海底斜坡滑动稳定性计算结果可靠性的基础上,分析了坡度对海底斜坡瞬态波浪响应及其滑动失稳特征的影响。结果表明,由于波浪沿斜坡面传播的浅水效应,相对于水平海床,波浪作用下斜坡最大瞬态应力和孔隙水压力随着坡度的增加基本呈线性增加趋势,最大水平位移呈非线性增加趋势;相比于坡底水平段海床的滑动区,斜坡面上滑动区的深度和水平方向滑动范围均有所增加,且坡度越大,这种效应越显著;相比于饱和海床,非饱和条件下,坡度对斜坡体滑动特征的影响程度有所降低。 相似文献
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随着海上油气田探索及开发水域不断加深,通常会遇到有坡度的海床,这对缓波型立管的安装转移提出了更高的要求。基于虚功原理和最小势能原理,建立了缓波型立管的力学分析模型。基于该模型在非平坦海床条件下对缓波型立管转移过程做参数分析,研究海床坡度角、安装船张力、浮筒段长度、船与平台的水平间距等参数对缓波型立管转移过程的影响。研究发现:随着海床坡度角的增大,立管转移过程中的拱弯弯曲程度加剧,上拱点、下垂点均上移,悬挂点张力及最大剪力均减小;在非平坦海床下,随着影响参数的改变,立管上拱点、下垂点和悬挂点张力变化的拐点和趋势不同。该结论为在非平坦海床海洋环境下缓波型立管的设计与应用提供一定的参考。 相似文献
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《中国海洋大学学报(自然科学版)》2017,(10)
本文以黄河三角洲粉质土为研究对象,开展了波致海床剪切破坏过程中孔压响应与土体强度变化的室内水槽试验研究,试验过程中,先后在模拟海床床上施加5、10、15cm波高的模拟波浪荷载,同步测量海床内不同深度处的孔压变化,并对海床进行贯入阻力测试和不排水抗剪强度测试。研究发现:海床中孔压响应过程的规律为孔压快速累积-孔压缓慢消散,在该过程中海床内最容易形成大幅度的孔压累积、孔压响应最强烈的位置,也是海床内土体强度的逐渐丧失以及土体剪切破坏是处开始发育的深度;波浪作用下粉质海床剪切破坏后会在海床内部一定深度处出现明显的弧形破坏界面,破坏土体沿界面随波浪作振荡运动,且破坏范围经历先扩展后回缩的过程,剪切破坏界面以下会有强度硬层的发育,强度硬层的形成与演化直接受剪切破坏过程控制,最终整个海床出现明显的强度非均质化;在孔压响应过程中孔压比即超孔压与上覆有效应力比值存在临界值K(本文水槽试验所得K=0.5),当超过K值时,土体贯入阻力和不排水抗剪强度降低,发生剪切破坏,这是波浪作用提供的剪切力以及超孔压累积导致海床内部抗剪强度降低共同作用的结果。 相似文献
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沙质海岸强浪作用下沿岸输沙问题研究 总被引:1,自引:0,他引:1
在沙质海岸上修建导流堤、丁坝等会引起局部海域水沙动力条件的改变和海床冲淤调整,因此准确预测沿岸输沙率是海岸工程建设前进行优化设计的基础条件之一.首先构建了刻画高强度推移质输沙过程中固-液混合体运动的理论模型,通过寻求模型的特解并推导成1D沿岸输沙率公式.该公式适宜计算强浪作用下的推移质输沙率,已得到了大型波浪水槽、往复流水道和海滩现场实测输沙率资料的良好验证.通过与物理模型试验实测输沙量结果的比较,进一步表明该公式能够较好地预测沙质海岸在寒潮大风浪(或台风浪)作用下的高强度输沙量(骤淤量). 相似文献
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在海洋环境中,海床土体由于地质成因通常是非均质的。由于非均质海床在波浪荷载下的海床响应与均质海床相比存在较大差异因此大批学者通过数值法和解析法对波浪荷载下非均质海床响应问题做了全面研究,但相关室内试验尚处于起步阶段。通过一维圆筒实验对不同类型非均质海床在波浪荷载下的响应情况做了详细的实验研究,不仅探明了非均质海床在波浪荷载下的响应及液化规律,也为相关理论及数值研究提供了实验依据。对实验结果的参数分析和液化分析可知,非均质海床的渗透系数对实验结果影响明显,渗透系数较大的非均质海床将产生更大的孔隙水压力响应及更小的海床液化。 相似文献
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广西合浦海草床生态系统服务功能价值评估 总被引:3,自引:0,他引:3
海草床生态系统是生物多样性丰富和生产力高的近岸海洋生态系统,本文以广西合浦海草床为例,结合实地调查、已有的研究成果和当地统计资料,综合运用生态经济学、资源经济学等基本理论和方法,对该地区海草生态系统的服务功能进行了价值评估。结果表明2005年该地区海草生态系统的服务功能价值为6.29×105元/a·ha,其中间接利用价值最大,为4.47×105元/a·ha,占总经济价值的70.97%;其次为非利用价值,为1.54x105元/a·ha,占总经济价值的24.52%;最少的是直接利用价值为2.84×104元/a·ha,仅占总经济价值的4.51%。 相似文献
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Nikuradse roughness (ks) is very important in the sediment transport prediction because it is related to the evaluations of the velocity distribution, shear stress and erosion depth. Dimensionless Nikuradse roughness (ks/D, where D is the sediment diameter) is usually given 1–2.5 on the immobile plan bed or at low shear stress. But it behaves differently on the mobile plan bed at high shear stress with much sediment picked up to movement when the Shields parameter (Θ) is larger than 0.8–1.0. The effective Nikuradse roughness on the mobile plan bed was derived indirectly from the erosion depth correlated to the mobile plan bed thickness considering the mass conservation in the present study. The proposed erosion depth confirmed the relation to the Shields parameters with an extra factor consisting of suspended sediment and its damping to turbulence. The decrement of the erosion depth caused by the increment of the sediment diameter at large shear stress was obtained, which was usually absent in classical empirical formulas based on the bedload theory. Good agreement with experiments was achieved by the present prediction of the Nikuradse roughness, erosion depth and sediment transport rate. Discussion was mainly focused on the prediction improvement caused by considering the impact of suspended sediment and its damping to turbulence. 相似文献
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Tide-driven bed load transport is an important portion of the net annual sediment transport rate in many shoreface and shelf environments. However, bed load transport under waves cannot be measured in the field and bed load transport by currents without waves is barely measurable, even in spring tidal conditions. There is, consequently, a strong lack of field data and validated models. The present field site was on the shoreface and inner shelf at 2 to 8.5 km offshore the central Dutch coast (far outside the surfzone), where tidal currents flow parallel to the coast. Bed load transports were carefully measured with a calibrated sampler in spring tidal conditions without waves at a water depth of 13–18 m with fine and medium sands. The near-bed flow was measured over nearly a year and used for integration to annual transport rates. An empirical bed load model was derived, which predicts bed load transports that are a factor of > 5 smaller than predicted by existing models. However, they agree with laboratory data of sand and gravel transport in currents near incipient motion. The damped transport rates may have been caused by cohesion of sediment or turbulence damping due to mud or biological activity. The annual bed load transport rate was calculated using a probability density function (pdf) derived from the near-bed current and orbital velocity data which represented the current and wave climate well when compared to 30 years of data from a nearby wave station. The effect of wave stirring was included in the transport calculations. The net bed load transport rate is a few m2/year. This is much less than predicted in an earlier model study, which is partly due to different bed load models but also due to the difference in velocity pdf. The annual transport rate is very sensitive to the probability of the largest current velocities. 相似文献
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Experimental Study on the Bed Shear Stress Under Breaking Waves 总被引:1,自引:0,他引:1
The object of present study is to investigate the bed shear stress on a slope under regular breaking waves by a novel instrument named Micro-Electro-Mechanical System (MEMS) flexible hot-film shear stress sensor. The sensors were calibrated before application, and then a wave flume experiment was conducted to study the bed shear stress for the case of regular waves spilling and plunging on a 1:15 smooth PVC slope. The experiment shows that the sensor is feasible for the measurement of the bed shear stress under breaking waves. For regular incident waves, the bed shear stress is mainly periodic in both outside and inside the breaking point. The fluctuations of the bed shear stress increase significantly after waves breaking due to the turbulence and vortexes generated by breaking waves. For plunging breaker, the extreme value of the mean maximum bed shear stress appears after the plunging point, and the more violent the wave breaks, the more dramatic increase of the maximum bed shear stress will occur. For spilling breaker, the increase of the maximum bed shear stress along the slope is gradual compared with the plunging breaker. At last, an empirical equation about the relationship between the maximum bed shear stress and the surf similarity parameter is given, which can be used to estimate the maximum bed shear stress under breaking waves in practice. 相似文献
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《中国海洋工程》2015,(4)
The movement of sediment in estuary and on coast is directly restricted by the bed shear stress. Therefore, the research on the basic problem of sediment movement by the bed shear stress is an important way to research the theory of sediment movement. However, there is not a measuring and computing method to measure the bed shear stress under a complicated dynamic effect like wave and current. This paper describes the measurement and test research on the bed shear stress in a long launder of direct current by the new instrument named thermal shearometer based on micro-nanotechnology. As shown by the research results, the thermal shearometer has a high response frequency and strong stability. The measured results can reflect the basic change of the bed shear stress under wave and wave?current effect, and confirm that the method of measuring bed shear stress under wave?current effect with thermal shearometer is feasible. Meanwhile, a preliminary method to compute the shear stress compounded by wave?current is put forward according to the tested and measured results, and then a reference for further study on the basic theory of sediment movement under a complicated dynamic effect is provided. 相似文献
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基于任意面上非粘性沙颗粒的受力分析,考虑了非平衡条件,推导了更具普遍性的泥沙输移矢量式。文中经对公式简化和编程计算,并对计算值与Ikeda和笔者顺直河道河宽调整试验资料加以验证。两者吻合较好。 相似文献
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The temporal growth of the envelope of bed motion owing to the migration of bedforms, which can be considered a proxy for maximum object burial depth, is examined using five different data sets. These data sets support the hypothesis that the envelope of bed motion will grow as an exponential taper, quickly at first, tapering off and approaching an asymptotic value. This growth is largest and fastest in the surf zone where wave and current flows are strong. Within the surf zone, envelopes owing solely to the migration of megaripples (bedforms with heights from 20 to 40 cm and lengths from 1 to 5 m) grow for about 8 d and reach an asymptote of about 40 cm. When wave energy becomes larger ( 1 m), bed envelopes are dominated by migrating sand bars and approach an asymptote of 3-4 m, but only after 2-12 years (depending on the beach). In addition, the frequency of object burial (the percentage of time that an object would be buried by the crests of migrating bedforms) is highest in the surf zone and grows rapidly with time. 相似文献
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《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