Causes and typical control model of wind-drift sandy lands in abandoned channel of the Yellow River

The historical formation and development of the abandoned channel of the Yellow River is reviewed and its causes of formation and present condition of prevention and control are analyzed in this paper. Based on this analysis, some ideas about control, critical problems and countermeasures in the next period are proposed with two typical control models as examples. We suggest that in preventing and controlling the wind-drift sandy lands in the region, the emphasis should be to develop, with a greatly expanded effort, a recycling economy. This should realize a combination of two ideas, i.e. integrate combating desertification with a structural adjustment of agricultural and an increase in the income of farmers.

Hydrodynamic Effect of the Regulation Project of Yangtze River Deepwater Channel Downstream of Nanjing

A two-dimensional flow numerical model of the tidal reaches, which total length is more than 700 km, is established from Datong to the Yangtze River estuary. The tidal levels, velocities, diversion ratios and dynamic axes before and after the separate regulation of each reach and combined regulation of all reaches are obtained. The comparative analysis shows that the regulation project of a separate reach basically has no impact on velocity distributions and variations of diversion ratios of upper and lower reaches, the variations of dynamic axes are only within the local scope of the project. The regulation project of a separate reach also has less impact on the water level in the lower adjacent reaches, but will make the water levels in the upper reaches rise. After the implementation of the regulation projects for all reaches, the rise of water level in the upstream reaches will have a cumulative impact.

Water level updating model for flow calculation of river networks

Complex water movement and insufficient observation stations are the unfavorable factors in improving the accuracy of flow calculation of river networks. A water level updating model for river networks was set up based on a three-step method at key nodes, and model correction values were collected from gauge stations. To improve the accuracy of water level and discharge forecasts for the entire network, the discrete coefficients of the Saint-Venant equations for river sections were regarded as the media carrying the correction values from observation locations to other cross-sections of the river network system. To examine the applicability, the updating model was applied to flow calculation of an ideal river network and the Chengtong section of the Yangtze River. Comparison of the forecast results with the observed data demonstrates that this updating model can improve the forecast accuracy in both ideal and real river networks.

Application of Flood Routing Model for Flood Mitigation in Orashi River, South-East Nigeria

The study focused on the application of Flood Routing Models for Flood Mitigation in Orashi River, South-East Nigeria. Flood data were collected for the study area and subjected to statistical analysis. Three flood Routingmodels were comparatively applied including Muskingum model, Level Pool model and Modified Pul’s model. Assumed routing period of 2.3 hours which helped to check excessive flood at the downstream section of the river was used. Also a dimensionless weighting factor of 0.15 was also adopted. Muskingum model and Level Pool model which represent linear relationship between measured outflow and predicted outflow for specified inflow and time change of one hour gave high and positive values of coefficients of correlations of 0.9769 and 0.9732 respectively. The Modified Pul’s model which also represents a linear relationship between measured outflow and predicted outflow for specified inflow and a time change for one hour showed the highest coefficient of correlation of 0.9984 and lowest standard error of 0.1749. Though, flood models of the Muskingum method and Level Pool method exhibited good correlation, their prediction differed significantly with the corresponding models of original data sets because of high standard error and thus not adequate for field application in similar rivers. A design application was carried out using the Modified Pul’s model. The values obtained for routed storage capacity was 348 m3 while the designed capacity was 354 m3. It is recommended that dredging of the river is carried out to achieve the designed capacity. This would eliminate the risk of flooding. The results of the study will serve useful purposes in predicting flood events and design of flood control works in similar basins.

冲积性弯曲河道造床过程及演变机制

冲积性弯曲河道独特的几何边界特征,使得弯曲河道的水沙运动特性和河床演变特性与其他类型河道显著不同。为模拟自然条件下的冲积性弯曲河道河床冲淤演变特性,采用自然模型法的理念在试验水槽中塑造出近似的弯曲河道,探究不同水沙条件对弯曲河道形成和发育过程的影响。试验表明:进口水沙循环周期长、来水来沙强度较小时,弯曲河道达到动态平衡状态所需的时间相对较短,河道形成稳定河宽也较小。弯曲河道在形成和发育过程中,河道的形态要素主要由水沙作用条件决定,在一定变化范围内,当水沙作用循环变换周期较短、来流流量较小、含沙量较大时,有利于形成弯曲度较大的河道;而当来流量较大、水位漫滩冲刷浅滩时,所塑造的弯曲河道会偏向于宽浅形断面形态。在河道弯曲程度和河道横断面形态的调整中,水沙作用变化对横断面形态塑造的作用相对较强。

溃坝洪水演进一维水动力模型

中国是受洪水灾害影响最严重的国家之一。洪水数值模型可准确地反映洪水的演进与致灾过程。本研究针对天然河道洪水过程存在的尺度大、水流流态复杂、河道断面形式多变以及计算建模困难等问题,提出一套基于Godunov格式的有限体积法离散圣维南方程组的一维水动力模型,并采用求解复杂断面水力要素之间关系的方法,提高了一维水动力模型求解的精度与效率,精确地反映了复杂断面河道的水流运动特性。将模型模拟得到的数值解与算例中的解析解或实测数据进行对比,结果表明:(1)构建的一维水动力模型模拟结果与理想算例解析解及实验实测数据吻合程度均较高,所有算例的E NS均大于0.5,说明模型具有良好的稳定性和适应性;(2)将模型应用至金沙江白格堰塞湖溃坝洪水算例中,模拟得到的流量峰值及整体洪水过程均与实测过程吻合较好,在叶巴滩和苏洼龙两个测点处E NS分别为0.633和0.812,证明了模型在实际应用中的适用性与可靠性。结果表明,开发的一维水动力模型对溃坝洪水等水流流态复杂、突发性强的洪水过程具有良好的模拟效果。本研究可为河道及溃坝洪水风险的初步、快速评估等工作提供有效的模拟支撑。

水沙变化条件下不同边界弯曲河道演变特征研究

弯曲河道具有迂回曲折的外形和蜿蜒蠕动的动态特征,其形成、发展和演变是受多种因素综合影响的复杂过程。为研究水沙变化条件下弯曲河流的河道演变特征,采用自然模型法在室内水槽中塑造出相对自然的弯曲河道,设置有、无护岸措施两种工况进行模型试验。结果表明:在有护岸措施条件下,河道纵剖面上游段冲刷下切、下游段变化不大,河道整体比降呈减小趋势,河道深泓弯曲度减小,其演变响应特性对含沙量的变化更敏感;在无护岸措施条件下,河道滩槽演变调整作用较强,纵剖面呈整体式下切,且下游段纵剖面下切幅度较上游段大,河道深泓弯曲度逐渐增大,其演变响应特性对流量的变化更敏感。弯曲河道发生演变的实质是变化的水沙条件与河道形态调整之间相互适应的过程,演变的最终趋势是河道的形态结构与水沙条件达到相互协调的平衡状态。

松花江牤牛哨滩河段航道整治方案比选

牤牛哨滩是松花江中游主要的碍航浅滩,该滩段河道水浅槽窄、滩口流急并伴随横流等碍航水流,严重影响船舶通航以及生态旅游航道的建设。针对此问题,采用二维水流数值模拟方法对牤牛哨滩河段的碍航水流特性进行研究,对比分析3种航道整治方案的效果。结果表明,采用复式断面航槽疏浚及生态闸坝建造的方案后,该滩段通航水深大于1.78 m,枯水期平均比降仅为0.29‰,平均消滩水力指标远小于2.06,流态良好,满足航道治理要求。研究成果可为该类滩险的航道整治方案选择提供科学依据。

莱州湾凹陷馆陶组辫状河储层沉积特征

新近系馆陶组辫状河沉积具有较好的储集性能,是莱州湾凹陷重要的油气储层。国内外学者对于典型的辫状河沉积模式和储层特征进行了大量的研究,但针对砂泥岩不等厚互层的非典型辫状河沉积特征研究较少。文中针对渤海湾盆地南部莱州湾凹陷A油田馆陶组辫状河沉积特征及储层展布,开展了岩心观察、薄片鉴定、测井分析、压汞测试等研究,并在沉积模式研究的基础上结合地震技术手段对辫状河心滩砂体的平面展布进行了综合分析。研究表明:①研究区馆陶组发育远源砂质辫状河沉积;②储层类型主要包括心滩和辫流河道2种类型,其中心滩储层为优质储层,粒度粗,厚度大,物性好,具有高电阻率、高孔隙度、高渗透率、含油饱和度高、低泥质含量的“四高一低”特点;③结合地震属性研究,心滩储层平面展布范围广,是研究区开发的优势区域。该研究成果可为远源砂质辫状河储层评价及开发井位部署、剩余油分布研究提供借鉴作用。

致密砂岩油气藏地震正演模拟

地震正演是地震储层预测必不可少的部分。在致密砂岩储层中,正演研究相对较少,反射特征认识不充分,而目前随着勘探开发进入隐蔽化,需要加强对致密砂岩储层发育特征的认识。为提高这一认识,以H油田C8油组为例开展了致密储层的正演研究,取得了以下研究成果:1)砂厚与地震属性之间的关系受砂泥岩阻抗差大小的影响。当阻抗差较大时,振幅随厚度的变化幅度明显;当阻抗差依次减小时,振幅随砂厚变化的幅度也依次变小。2)存在着一个临界的孔隙度0.08,当孔隙度小于0.08时,砂岩对应波峰-波谷,振幅随孔隙度增大而减小;当孔隙度等于0.08时,砂泥岩阻抗相等振幅为零;当孔隙度大于0.08时,极性出现反转,砂岩对应波谷-波峰,振幅随孔隙度增大而增大。3)河道的正演结果表现为单个复合河道地震同向轴相应为顶平底凸的下切和边部收敛;两河道纵向切叠为晚期河道切割出现下切和边部收敛;河道侧向切叠为早期复合河道被晚期的河道切割,晚期复合河道形态保存完整。4)前积体的正演结果表现为明显的顶底板反射及两侧反射形成平行四边形的形状。利用该研究成果对C8油组进行了储层砂体的预测,共识别河道7条,为进一步的储层预测奠定了基础。

Evaluation of habitat quality for selected wildlife species associated with island back channels

The islands and associated back channels on the Ohio River, USA, are believed to provide critical habitat features for several wildlife species. However, few studies have quantitatively evaluated habitat quality in these areas. Our main objective was to evaluate the habitat quality of back and main channel areas for several species using habitat suitability index (HSI) models. To test the effectiveness of these models, we attempted to relate HSI scores and the variables measured for each model with measures of relative abundance for the model species. The mean belted kingfisher (Ceryle alcyon) HSI was greater on the main than back channel. However, the model failed to predict kingfisher abundance. The mean reproduction component of the great blue heron (Ardea herodias) HSI, total common muskrat (Ondatra zibethicus) HSI, winter cover component of the snapping turtle (Chelydra serpentina) HSI, and brood-rearing component of the wood duck (Aix sponsa) HSI were all greater on the back than main channel, and were positively related with the relative abundance of each species. We found that island back channels provide characteristics not found elsewhere on the Ohio River and warrant conservation as important riparian wildlife habitat. The effectiveness of using HSI models to predict species abundance on the river was mixed. Modifications to several of the models are needed to improve their use on the Ohio River and, likely, other large rivers.

珠江三角洲网河区过江隧道极限冲刷深度研究

河道稳定性和可能的极限冲刷深度是影响工程建设的主要限制因素。文章以南沙明珠湾区跨江隧道工程为研究对象,在河道演变分析基础上,通过物理模型试验得出了不利水文组合下的河床极限冲刷深度,并与数学模型和经验公式的计算结果进行比较与分析。结果表明,3种方法得出的极限冲刷成果较为接近,其中物理模型试验成果偏于工程安全,研究结果可为合理确定隧道埋深提供参考依据。

山区河流弯曲分汊型河段航道整治方案

岷江下游沙卵石弯曲分汊河段较多,不同分汊河段的河势特征与碍航特征迥异,山区河流弯曲分汊型河段不同的航道整治措施将导致整治点位水文条件、底质组成和河道结构产生明显不同的变化,对航道整治点位通航功能的影响也有明显差异。采用1:100正态河工物理模型试验和自航船模试验相结合的技术手段,针对岷江下游霸王滩滩群弯曲分汊型航道整治措施进行研究,对山区河流弯曲分汊型河段航线选线、整治建筑物尺寸和间距等平面设计参数进行优化设计,提出岷江下游霸王滩群弯曲分汊型河段III级航道整治方案。结果表明,通过优化航线布置并结合坝体调整、复式航槽开挖、下游布设潜坝或填槽等工程措施,可以实现增加水深、改善水流条件的整治目的。

基于HEC-RAS模型的西安浐河河道水面线计算

通过开展河道水面线推求能为浐河河道防洪工程设计提供重要科学依据。以西安浐河干流及其支流库峪河为例,采用地区经验公式法和水文比拟法推求浐河干流及支流河段20年一遇的设计洪水,通过比较分析,水文比拟法更能准确反映浐河河段的设计洪峰流量。基于设计洪峰流量结果,利用HEC-RAS模型推算浐河干流及其支流库峪河的水面线,得到各个断面的洪水水位、流速,水面线模拟计算结果较好,满足工程防洪要求,可为浐河河道工程防洪设计标准提供技术支撑。

长江下游崩岸预警模型水动力指标阈值研究

长江下游河道崩岸灾害频发,多指标崩岸预警模型是基于层次分析法建立的岸坡稳定性评价方法。水动力作为关键影响因素,对于其指标阈值的确定缺少理论和系统的研究。本研究基于理论推导、数模计算和统计方法,确定了对应不同风险等级岸坡稳定性的水动力预警指标阈值,具体包括造床流量当量、近岸流速、水位变幅和汊道分流比变化率等指标。其中造床流量当量和水位变幅指标阈值确定考虑了感潮河段潮流参与造床和周期性潮位波动的作用。近岸流速指标引入了河床稳定性计算公式。汊道分流比变化率指标阈值计算区分了主支汊,得出当变化率大于8%时,主汊岸坡处于不稳定状态。研究结果可支撑长江下游多指标崩岸预警模型的建立,并应用于崩岸灾害防治。

长江上游老虎梁险滩航道整治模型试验研究

长江上游老虎梁滩段是重庆—宜昌河段内的重点碍航滩险,近期发生多起海损事故,严重影响船舶通航安全及航运效益发挥。针对此问题,采用物理模型试验和船模试验的研究手段,在深入揭示老虎梁滩段碍航水流特性及行船安全问题的基础上,对不同航道整治方案实施后的水流条件、行船状态进行了对比研究。结果表明,方案实施能减弱不良流态对船舶安全航行的影响,综合分析比选后推荐了最优方案,为该滩段航道整治工程设计提供科学依据,也可供其它类似滩险的航道整治研究参考。

基于EFDC的排污口设置对淮河入海水道水环境影响研究

为分析淮安明通污水处理厂入河排污口设置对淮河入海水道淮安河段的水环境影响,通过构建EFDC数学模型,预测模拟了污水厂尾水中COD,NH3-N和TP等污染物在河道的迁移扩散情况及对苏嘴断面的水质影响。结果表明,该模型水动力拟合优度良好,水质模拟PBIAS小于20%;苏嘴断面污染物浓度增量与淮河入海水道流量呈负相关关系,发生事故排放后污染物浓度增量比正常排放显著增大;在入海水道二期启用后,丰水期COD扩散后浓度较高的水域面积较枯水期有所减小。此研究可为淮河入海水道水环境管理提供理论指导。

基于MIKE模型的氮磷流失量估算及建议

围绕汛期河道水环境质量波动问题,选取南方长江下游典型河道某考核断面为典型研究单元,对土壤氮磷污染情况展开调查研究。并在此基础上构建研究区域典型河段的水动力和水质耦合模型,结合同步监测数据进行参数率定及验证,分析TP、TN的污染特征并核算其对河道氮磷污染的贡献率,旨在为污染管控及河道科学治理提供理论支持。

闽江下游南北港分流比变化数值模拟分析

为分析闽江下游南北港分流比变化过程以及河道演变对分流比的影响,在前人研究基础上,结合实测资料,通过数学模型,进行分流比变化模拟研究。结果表明:1997—2020年,闽江南北港分流比变化明显,2009年之前分流比变化程度强于2009年以后;1997—2020年,河床冲淤变化是南北港分流比变化的主要影响因素,导致50~200年一遇洪水北港分流比减小9.1%~10.6%,河道平面束窄对南北港分流比也有一定影响,影响幅度约3%。研究成果可为闽江下游南北港整治和保护管理及涉河开发建设等提供技术参考。

塔里木河下游输水模式改进研究——以英苏断面为例

[目的]针对塔里木河下游现状间歇性河道输水中存在补给不均衡,无效蒸发过大,补水范围有限等问题,从空间和时间维度上提出生育期汊河输水、非生育期输水的方式,研究输水模式的改进对地下水位的影响,进一步完善轮渗灌溉生态修复体系,为塔里木河下游生态恢复提供理论依据。[方法]以塔里木河下游英苏监测断面为例,以2012—2021年10次生态输水期间地下水埋深监测资料为依据,运用Modflow模型建立英苏断面地下水剖面二维流运动的数值模拟,并分析英苏断面10次间歇性生态输水的响应过程,并预测和分析了生育期汊河、非生育期以及非生育期汊河输水的地下水位演变及水量变化的过程。[结果](1)生育期汊河、非生育期、非生育期汊河方案下人工汊河两侧地下水位较现状输水分别抬升了2.5,0.7,3.2 m。(2)3种改进方案较现状输水研究区小于8 m的埋深面积分别增加了10.89%,19.33%,26.17%。(3)地下水存储量较现状输水分别增加了10.97%,11.88%,14.39%。[结论]非生育期汊河输水结合了生育期汊河和非生育期输水两者的优势,提高了下泄水量的利用率,解决了现状主河道输水模式下河间地下水位难以恢复的问题,为河间地块生态系统的恢复并使其成为下游生物多样性的安全带创造了条件。