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2012年洪季对珠江黄茅海河口湾侧向动力结构与泥沙输移过程进行了系统观测,采用动量平衡和泥沙通量机制分解等方法,分析了河口流、温盐和泥沙侧向分布特征以及泥沙输移过程,探讨了侧向动量平衡与泥沙输移机制。洪季黄茅海河口存在明显的侧向流,西滩和北槽均形成表层向东、底层向西的两层侧向流,拦门沙滩顶呈现表、底层向西、中层向东的三层侧向流,而拦门沙前缘侧向流整体向西。河口湾纵向净泥沙通量表现为北槽向海、西滩向陆,拦门沙滩顶及其前缘均向海;侧向净泥沙通量表现为滩顶及其前缘均向西,西滩向东、北槽向西。这种侧向泥沙辐聚过程是高浓度悬沙聚集于滩槽界面的重要原因,向陆净通量是西滩回淤的重要原因。滩槽间侧向余环流动量平衡主要是侧向斜压梯度力、科氏力和侧向平流作用。欧拉平流输运在侧向泥沙输运中起主要作用,潮泵效应也起重要作用。 相似文献
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任于灿 《海洋地质与第四纪地质》1992,12(4):59-68
本文主要根据黄河水利委员会多年固定断面的测量资料和海洋地质研究所1988年两个航次调查结果,结合黄河水沙资料的分析,对水下三角洲的地貌特征、地貌演化及形成机制进行了论述,尤其对三角洲前缘的地貌演化趋势进行了较详细地阐述。 相似文献
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黄河清水沟流路河口尾闾段河床形态萎缩特征 总被引:3,自引:0,他引:3
在简述黄河河口尾闾河段相关特征的基础上,从河槽横断面形态、河床纵剖面形态包括主槽河底平均高程、河床纵比降、平滩流量变化等方面分析了黄河河口尾闾河段河床形态萎缩特征。清水沟流路在1976—2000年期间,黄河口尾闾河段的发育大致可分为4个阶段,即初期发育阶段、中期成型阶段、后期萎缩阶段、末期人工干预发展阶段。相应的发育时期分别为20世纪80年代中期以后,尾闾河段主槽宽深比上升、横比降升高、河段纵比降下降、河床平均高程抬升,其相应时期内河道平滩流量相对偏低。这一现象可能与黄河来水来沙偏枯相关。河道疏浚、人工出汊、调水调沙等措施对尾闾河段河床形态的萎缩有一定的抑制作用,但其影响是暂时的,不能改变河道萎缩的总体趋势。 相似文献
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现代黄河三角洲钓口叶瓣体沉积相及其沉积动力环境特征 总被引:1,自引:0,他引:1
The Huanghe River captures the Diaokou River in 1964 and forms a deltaic lobe in the subsequent 12 a. The progradational process of the Diaokou lobe is in associated with complicated evolution of riverine sheet flooding,merging, and swinging. On the basis of 11 borehole cores and 210 km high resolution seismic reflection data set,the sedimentary sequence and dynamic environment of the Diaokou lobe(one subdelta lobe of the modern Huanghe River Delta) are studied. The stratigraphy of the lobe is characterized by an upward-coarsening ternary structure and forms a progradational deltaic clinoform. Totally six seismic surfaces are identifiable in seismic profiles, bounded six seismic units(SUs). These SUs correspond to six depositional units(DUs) in the borehole cores, and among them, SUs 4–6(DUs D to F) consist of the modern Diaokou lobe. Lithological and seismic evidences indicate that the delta plain part of the Diaokou lobe is comprised primarily by fluvial lag sediments together with sediments from sidebanks, overbanks, fluvial flood plains and levees, while the delta front part is a combination of river mouth bar sands(majority) and distal bar and deltaic margin sediments(minority). As a result of the high sedimentation rate and weak hydrodynamic regime in the Huanghe River Delta, the sediments in the delta front are dominated by fine-grained materials. The grain size analysis indicates the Huanghe River hyperpycnal-concentrated flow shows the suspension, transportation and sedimentation characteristics of gravity flow, and the sediment transportation is primarily dominated by graded suspension, while uniform suspension and hydrostatic suspension are also observed in places. The strength of the hydrodynamic regime weakens gradually offshore from riverbed, river mouth bar, sidebank, distal bar subfacies to delta lateral margin and flooding plain subfacies. 相似文献
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According to analysis on field data obtained by ADCP(Acoustic Doppler Current Profiler),the flow regime of the Yangtze River Estuary is studied by use of a 3-D numerical model.The flow field characteristics,under the influence of Coriolis force,saltwater intrusion and freshwater inflow and tidal current interaction,are depicted in details.The main driving forces and some important effective factors of lateral,longitudinal and horizontal circulation are also analyzed. 相似文献
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A 3D,time-dependent,baroclinic,hydrodynamic and salinity model was implemented and applied to the Oujiang River estuarine system in the East China Sea.The model was driven by the forcing of tidal elevations along the open boundaries and freshwater inflows from the Oujiang River.The bottom friction coefficient and vertical eddy viscosity were adjusted to complete model calibration and verification in simulations.It is demonstrated that the model is capable of reproducing observed temporal variability in the water surface elevation and longitudinal velocity,presenting skill coefficient higher than 0.82.This model was then used to investigate the influence of freshwater discharge on residual current and salinity intrusion under different freshwater inflow conditions in the Oujiang River estuary.The model results reveal that the river channel presents a two-layer structure with flood currents near the bottom and ebb currents at the top layer in the region of seawater influenced on north shore under high river flow condition.The river discharge is a major factor affecting the salinity stratification in the estuarine system.The water exchange is mainly driven by the tidal forcing at the estuary mouth,except under high river flow conditions when the freshwater extends its influence from the river’s head to its mouth. 相似文献
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黄河入海流路自1976年5月改道至清水沟流路以来,其地貌形态一直处于剧烈的变化当中,以往的研究虽然关注了典型断面主槽的形态特征及过流能力的变化,但对于清水沟流路范围界限内河道断面整体形态及其沿程变化等地貌特征还缺乏系统研究.本文以2019年10月黄河口现行清水沟流路范围渔洼以下河段加测横断面为研究对象,辨识现状地貌分布特点和横断面沿程形态特征,并分析其成因.结果表明:黄河口地貌形成受自然演变和人类活动的影响,既具有主槽、滩地、堤防等河流地貌要素,又具有滩涂、潮沟、拦门沙等海洋地貌要素.在有堤防河段,主槽形态窄深,过流能力较强;在无堤防河段,主槽形态宽浅,过流能力较差;从滩槽高差、唇滩高差、滩地横比降三个指标来看,无堤防河段的"自然悬河"程度大于有堤防河段的"二级悬河"程度.黄河口悬河程度小于黄河下游大部分河段,但黄河口尾闾河道的滩地横比降依然远大于河道纵比降,若发生漫滩洪水将极易引起顺堤行洪,会对黄河口堤防安全造成极大威胁. 相似文献
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J. P Hooft 《Ocean Engineering》1994,21(3)
In this paper, an analysis is given of the experimentally derived local lateral force on a manoeuvring ship as a reaction to the ship's lateral velocity. The tests were performed with models consisting of several segments. Special attention is paid to the longitudinal distribution of the non-linear component of the lateral force, the so-called cross-flow drag. This aspect is of utmost importance when the non-linear contribution becomes dominant as will occur in a tight turn during which the ship's drift velocity becomes relatively large compared to the ahead speed. 相似文献
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The wave propagation and flow modules of the TELEMAC system have been applied to the Adour River mouth and the adjacent beaches of Anglet (France). The wave propagation has been simulated using the phase-averaged model TOMAWAC. In addition, the phase-resolving REFDIF S model has been also used, as the diffraction of wind waves, which is not taken into account in TOMAWAC, can occur in the vicinity of the River mouth. Next, the hydrodynamics has been simulated using the two-dimensional depth-averaged flow TELEMAC 2D model. 相似文献
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珠江河口特征认知的发展 总被引:3,自引:3,他引:0
人们对珠江河口的认知发生过几次飞跃。第一次认知飞跃,柯维廉(W.Olivecrona)1915年首次提出了珠江三角洲的概念;第二次认知飞跃,吴尚时1937年证明海水曾深入广州形成珠江河口湾并发育三角洲,1941和1947年先后著文肯定了珠江三角洲的存在,并确定了其主体范围;第三次认知飞跃,曾昭璇1980年提出了冲缺三角洲的概念,1997年提出了串珠状冲缺三角洲发育模式,揭示了珠江三角洲发展的时间与空间位置;第四次认知飞跃,赵焕庭1982年揭示了珠江三角洲叠置晚更新世晚期老三角洲与全新世中期现代三角洲,新资料显示还存在晚更新世中期三角洲;第五次认知飞跃,赵焕庭等于1973-1982年间运用西蒙斯优势流概念和河口盐水楔理论研究了口门和河口湾滩槽地形的发育演变;第六次认知飞跃,吴超羽等于2006年创造性应用自己研发的长周期机理模型和沉积学、地貌动力学等多学科互证,量化再现了珠江三角洲6~2.5 ka BP"镶嵌式"演变过程。 相似文献
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A study of suspended sediment concentration in the buoyant plume of the Fraser River, Canada, showed that unstratified flow conditions at the river mouth caused resuspension of sandy bed material and high concentrations of coarse sediment. When flow at the mouth was stratified, sediment was fine-grained and concentrations were low. Application of a multivariate model revealed that suspended sediment concentration along the plume axis was controlled primarily by distance seaward of the river mouth, secondly by tidal height, and least by sediment concentration in the river. 相似文献
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黄河口快速沉积及其动力过程 总被引:2,自引:1,他引:2
现场观测资料和卫星遥感校准图像计算表明 ,185 5年以来 ,黄河三角洲新淤陆地 36 99km2 ,生长速率为 2 6 8km2 /a ,黄河输入三角洲 1× 10 8t泥沙形成 3 14 4km2 的陆地。进入河口区的泥沙约 88 4 %堆积在水下 8km宽的三角洲前缘。研究表明 ,这一堆积比例是河口切变锋、异重流和潮流场相互作用的结果 ,异重流在黄河汛期一直存在 ,大约搬运黄河来沙的 6 0 %沉积在三角洲前缘 ;一个潮周期内 ,切变锋出现两次 ,它能够捕获异轻羽状流中的悬浮泥沙堆积 ,也能够限制异重流的远距离扩散。切变锋消失后 ,少量悬浮泥沙才能远距离扩散 ,随潮流离开三角洲水下斜坡。 相似文献
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埕岛海域海底冲淤的初步数值研究 总被引:2,自引:0,他引:2
从沉积动力学的角度,在分析实测和历史资料的基础上,首先总结出埕岛海域的海底冲淤变化规律,尔后通过潮流场的模拟,数值求解输沙方程,以研究埕岛海域的海底冲淤.初步探讨运用数值模拟手段来研究海底冲淤变化. 相似文献
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合理的人工鱼礁组合可以有效改善投放水域的流场效应,提高投放水域底层与上层水体之间的扰动。通过使用并行大涡模拟模式及被动示踪物模块,并通过调整人工鱼礁布设间距,研究了在不同背景流速条件(0.1、0.5、0.6和1.0 m/s)下,在不同的横向间距(1L、2L、3L)(L表示人工鱼礁的边长)或纵向间距(1L、2L、3L、4L、5L)情况下,方型人工鱼礁对上升流体积、营养盐的抬升和垂向涡黏系数的影响。研究结果表明,在同一布置条件下,单排布置下的三块人工鱼礁形成的上升流体积大小与来流速度成正相关,体积随来流流速增加而增大6.4%~80.5%;在同一流速条件下,上升流体积大小与纵向布置的间距成正比,与横向布置的间距成反比;在横向布置条件下,当来流速度为1.0 m/s、布设间距为1L时,上升流体积参数最佳。总体来说,上升流体积参数、示踪物浓度差和垂向涡黏性系数均显示横向布置优于纵向布置,相较于布设间距,来流速度是影响上升流体积最重要的因素。 相似文献
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《Marine and Petroleum Geology》2003,20(6-8):757-787
This paper presents a process-response model for submarine channel-lobe systems based on the integration of sedimentology, architectural element analysis, paleogeographic reconstructions, and stratigraphy to characterize the migration patterns of the channel-lobe transition zone (CLTZ). In the Permian Brushy Canyon basinal cycle, deposition is the product of the basinward then landward migration of the CLTZ across the depositional profile (zonal or facies tract shift). This is expressed in outcrop by the vertical association of sandstone lobes overlain by channel fills capped by sandstone lobes. Linking these sedimentary bodies to their facies associations provides the framework for relating variable degrees of flow confinement to small-scale composite erosional depressions (less than 150 m wide by 5 m deep). This model identifies (1) coeval geomorphological expressions of the depositional profile and (2) the stratigraphic evolution of depositional cycles at every profile position. This permits relating facies associations to lateral and longitudinal changes in flow conditions at the time of deposition. Stacking patterns, geometry of sedimentary bodies and facies associations reflect fluctuations in flow volume and efficiency. Architectural element analysis differentiates evolutionary phases of channel-lobe systems. The power of the model lies in its ability to compare architecture and evolution across several scales of sedimentary bodies. Recognizing the vertical and lateral association of sedimentary bodies, arranged in a hierarchical order, permits understanding how the geomorphological building blocks of this depositional system change through time. Channel-fill, channel-flank and lobe strata represent the building blocks that form composite features documented at four scales. These range from tens of meters to several kilometers wide, by meters to hundreds of meters thick. Areal distribution of sedimentary bodies at each scale responds to specific controls, i.e. flow volume and topography. For example, channels extending basinward of a canyon mouth form local depositional topography that produces lateral migration of channel-lobe systems through time. This strongly controls the frequency of channel avulsion and lateral deposition. 相似文献