Load compensation research on twicetension for loop anchor cable of inner lining in Yellow River-crossing tunnel

The load compensation equipment for anchor cable named low retraction prestressed anchorage system with twice-tension(referred to as twice-tension anchorage system) is proposed in the paper. Calculation results of loop anchorage prestressing loss(PL) values of inner lining(IL)in Yellow River-crossing tunnel under two anchorage systems,including twice- tension anchorage system and HM(Chinese transliteration is huanmao)anchorage system,are introduced. The software ANSYS is selected to realize the three-dimensional(3D) finite element modeling to accomplish simulation and calculation works under the two anchorage systems,respectively. Stress processes of IL under the two working conditions,of which one is completed cable tensioning(CCT) and the other is water in the tunnel with the designed water pressure(DWP),are contrasted and analyzed. Impacts of prestressing forces of anchor cables on structural safety under the two anchorage systems are contrasted. The calculation results show that the twice-tension anchorage system can reduce PL effectively and then increase prestresses of wall concrete(WC). Meanwhile,the anchorage system has the advantages of improving security and stability of tunnel structure,reducing project costs and saving steel consumption. The research work is available to related design and construction of anchor cable,and is worthy of promotion and application.

水网布局下黄河流域应对极端枯水的关键科学问题

变化环境下极端气象水文事件频发,长江、黄河面临同枯风险。在国家水网建设背景下,为提高长江、黄河同枯的极端不利情景下黄河流域水资源安全保障能力,本文分析了长江、黄河两大流域水资源安全面临的现实问题,识别了变化环境下大型流域枯水遭遇—水危机形成—跨流域调水潜力—多线路成网互济—极端枯水下水资源安全保障中亟需破解的关键科学问题,构建了水网布局下黄河流域应对极端枯水的总体研究框架,提出该领域重点研究方向包括:变化环境下长江、黄河极端枯水遭遇规律与空间变异机制,水危机风险多链路传导与复合影响定量评估,极端枯水下跨流域调水挖潜增供,长江和黄河跨流域联合调配与多线路互济精细化调控、极端枯水下流域水资源韧性提升优化调控等。

基于CMIP6气候模式和两种水文模型综合集成预估的黄河源区未来40年流量变化

基于两个共享社会经济低碳路径(SSP1-2.6、SSP2-4.5)下的CMIP6中的8个GCMs气候模式进行黄河源区2021—2060年平均气温和降水量预估。在此基础上,利用CMIP6中的8个GCMs气候模式分别驱动HBV、SWAT水文模型综合集成预估了黄河源区2021—2060年流量的年代际变化。结果表明:SSP1-2.6、SSP2-4.5情景下,2021—2060年黄河源区呈暖湿化趋势,平均气温较基准期(1995—2014年)分别上升1.3℃、1.6℃,年降水量分别增加11.6%、11.5%。SSP1-2.6、SSP2-4.5情景下2021—2060年黄河源区年平均流量分别增多8.6%、8.5%;两种情景下黄河源区21世纪各年代际流量均增加,其中21世纪20年代和30年代流量增幅小于40年代、50年代流量增幅。SSP1-2.6、SSP2-4.5情景下黄河源区2021—2060年6—8月流量减幅在1%以下,而3—5月和9—12月流量增幅为0.1%~2.1%。SSP1-2.6、SSP2-4.5情景下黄河源区蓄水期(9—11月)极端丰水流量增加2.5%~2.7%,SSP1-2.6情景下黄河源区2021—2060年汛期(6—8月)极端丰水流量总体增加0.1%,SSP2-4.5情景下黄河源区汛期极端丰水流量减少1.3%,SSP1-2.6、SSP2-4.5情景下黄河源区枯水期(12至次年5月)极端丰水流量减少0.7%~1.0%;黄河源区汛期(SSP1-2.6和SSP2-4.5情景)及枯水期(SSP1-2.6情景)极端枯水流量较基准期增加0.8%~1.9%,两种情景下黄河源区蓄水期极端枯水流量减少1.8%~2.3%。

基于HHO的跨流域调水工程受水区水资源优化配置研究

跨流域调水工程是解决我国水资源时空分布不均和缓解水资源供需矛盾的重要措施。山东省黄水东调工程、引黄济青工程和胶东调水工程是缓解胶东地区潍坊、青岛、烟台、威海四市水资源紧缺问题的重要跨流域调水工程。为充分发挥调水工程社会和经济效益,在考虑受水区缺水量、工程输水能力及沿途分水口门设计流量等基础上,以受水区四市综合缺水率最小和调水工程经济效益最大为双目标,构建了胶东地区跨流域调水工程水资源优化配置模型,采用哈里斯鹰优化算法(HHO)求得现状水平年和规划水平年在50%、75%和95%频率时3种不同目标协调机制(以综合缺水率最小为主导、以调水工程经济效益最大为主导及两目标均衡)16个分水口门的调水方案。结果表明:(1)通过调水工程调引黄河水和长江水,使四市缺水量大幅减少;(2)当经济效益目标所占比重越大时,计量水价越高的分水口门供水量越大;(3)从三个调水工程利用程度来看,黄水东调工程利用程度最高,其次为引黄济青工程和胶东调水工程。本文为山东省胶东地区跨流域调水工程的水资源配置提供了决策支持。

基于黄河一张图的水利工程项目库管理系统研究和应用

为统筹黄河流域工程布局和项目实施,强化流域统一治理管理,基于黄河一张图建设水利工程项目库管理系统,实现项目用户填报项目、审核用户审核项目、管理用户对项目赋码授权、查询用户查看项目信息等功能,有力支撑黄河流域(片)重大水利工程项目库管理工作。

黄河工情险情全天候监测感知预警系统的研究与应用

针对黄河河道工程出险后短时间内有迅速扩大的危险,对重要险工、控导等水利工程进行信息化强监管,开发、敷设及时可靠的黄河工情险情全天候监测感知预警系统,提升监测能力。黄河工情险情全天候监测感知预警系统是数字孪生黄河工程建设的重要内容之一,利用物联网、大数据、云存储等技术,借助黄河河道工程内部埋设的传感器,对根石和坦石的出险情况进行实时监测与监视,并以此为基础,通过现有黄河网和公网,实现工程的网格化分级管理,为指挥中心防汛抢险决策提供准确、及时、科学的数据信息支持,推动治黄信息化发展与治黄业务的深度融合,有效实现险情的“抢早、抢小、抢住”。

河南省西霞院水利枢纽输水及灌区工程

河南省西霞院水利枢纽输水及灌区工程从黄河小浪底水利枢纽的配套工程西霞院水库引水,自西向东新建1条输水总干渠,为温孟武滩区2.18万hm^(2[2])灌区提供水源,并向武嘉灌区、人民胜利渠灌区及大功灌区补水,是国务院确定的172项节水供水重大水利工程之一,同时也是河南省委、省政府实施“四水同治”战略首批推进的10项重大水利工程之一。从工程建设的必要性、工程总体布局、工程主要建设内容和规模、工程地质、工程设计以及建成后的工程效益6个方面对河南省西霞院水利枢纽输水及灌区工程进行分析。

黄河中游不同地貌条件下植被干旱时空特征及影响因素

利用归一化植被指数、地表温度和降水数据构建温度植被降水干旱指数(TVPDI)分析黄河中游2000—2021年植被干旱时空特征及影响因素,论证了黄河中游退耕还林还草工程实施与区域植被干旱特征间的关系。结果表明:①黄河中游2000—2021年多年平均TVPDI值呈不显著上升趋势,TVPDI多年均值为0.708,对应干旱等级为轻旱。②黄河中游2000—2021年TVPDI有较强的空间分异性,呈现“东北、西南部地区旱情较轻,西北、东南部地区旱情较重”的空间分布格局;从各地貌分区来看,黄土高塬沟壑区旱情较轻,风沙区与河谷平原区旱情较重。③黄河中游TVPDI空间分异的主要影响因子为气温、蒸散发和降雨量,且与TVPDI存在显著线性关系。黄河中游2000—2021年植被覆盖度与蒸散发量均呈增加趋势,土壤水分呈下降趋势。

基于植入式分布式光纤传感技术的引黄涵闸混凝土温度监测方法及其应用

准确获取混凝土浇筑及固化过程中的温度特征参量变化对于了解及掌握黄河流域引黄涵闸工程建设中混凝土开裂产生原因具有重要意义。目前黄河流域引黄涵闸建设工程中主要采用热成像方式测量其表面温度,难以实时获取混凝土的整体温度特征。采用植入式分布式光纤传感技术在对引黄涵闸工程山东段混凝土温度进行监测,在混凝土浇筑前,将传感光缆预先布设于结构钢筋两侧,从而实时有效地监测混凝土浇筑和固化过程中的内部温度特征。实验结果表明,采用植入式分布式光纤传感技术,可以实时监测混凝土各个点位的温度变化及固化过程中的温度异常点,同时,该方案可以有效分析混凝土固化过程中温度特征及整体变化情况。依托分布式光纤传感技术实现引黄涵闸混凝土温度监测,对黄河流域同类工程建设具有重要的借鉴意义。

不同水源特征水库中溶解性有机物的光学特性对比

为考察A水库(“引黄工程”水源水库)与B水库(普通类型水库)的溶解性有机物(DOM)在相对分子质量大小、组成特征及来源方面的差异,采用紫外-可见光谱技术以及三维荧光光谱技术结合平行因子分析法,针对A水库和B水库水体中DOM的吸收参数特征和荧光特征进行了研究。结果显示:A水库和B水库的DOM均有较强的自生源特征,但两水库的DOM在组成特征和来源上存在一定差异。B水库样本中存在长波类腐殖质C1(E_(x)=350 nm,E_(m)=454 nm)、类色氨酸物质C2(E_(x)=300 nm,E_(m)=361 nm)和类色氨酸C3(E_(x)=220 nm/250 nm,E_(m)=347 nm)3个荧光组分,而A水库样本中存在长波类腐殖质C1、类色氨酸物质C2两个荧光组分,说明A水库的组成特征相对更加简单。DOM吸收参数特征分析显示,A水库水质状况良好,其DOM相对分子质量较大,主要来自自生源;而B水库处于富营养状态,其DOM相对分子质量较小,富里酸成分和水体芳香性较高,水生环境中维管束植物输入较为丰富,主要来自入库河流和自生源。光谱指标差异性分析显示,A水库DOM外源输入比例小于B水库,同时A水库的水质污染源更多以陆源输入为主。研究揭示了水库中DOM的光学特性,可反映水库的环境污染程度和富营养化程度,为进一步探究DOM在不同水源特征水库的环境行为特征及水库水质保护等提供参考。

山西省万家寨引黄一期工程渡槽伸缩缝渗漏水的维修

伸缩缝是大型混凝土建筑物为适应温度变化而设置的一种水平变形缝,在工程实践中对于水工混凝土建筑物而言,渗漏是一种比较常见的工程病害,这种病害严重威胁到整个工程的长久安全稳定运行,应予及时进行维修。在国内工程实践中,针对渡槽伸缩缝渗漏这种工程病害的治理和维修一直未有效解决。介绍了一种新施工工艺,在原伸缩缝位置开槽替换原来的嵌缝材料,之后粘贴U型GB复合橡胶止水带并用不锈钢压板固定,其上再用环氧砂浆补平,表面再涂刷环氧胶泥进行封闭。这种施工工艺施工十分简便,造价又相对较低。通过实际施工检验,工程效果较好,十分值得推广应用。

黄河流域文旅演艺项目运营模式研究——以濮阳杂技情景剧《水秀》为例

探索黄河流域文旅演艺项目运营模式当前存在的问题和优化路径,对于推动黄河文化的传承与发展,提升文旅项目影响力和竞争力具有重要意义。该研究选择了《水秀》作为典型案例,进行RMP(资源、市场、产品)分析。通过对黄河流域文旅演艺项目的资源、市场和产品进行优势和劣势分析,发现其存在资源缺乏特色、资源分布不均衡、市场规模不足、项目定位模糊、宣传受限和项目质量参差不齐等问题。为解决这些问题,该文提出了多条优化路径,不断探索和创新技术手段和演出形式,形成独特的项目形象和记忆点。该研究旨在为黄河流域文旅演艺项目的运营提供借鉴和启示,以促进文化旅游产业的繁荣和发展。

RMO砂浆在引黄济青胶州段水闸维修中的应用

以引黄济青工程胶州段水闸维修加固为例,详细阐述了RMO砂浆的材料特性、施工工艺及修复效果等,为类似工程设计施工提供了实践参考。

青岛市黄水东调长输管道工程水土流失防治研究

长输管道工程跨度大,沿线经过不同的侵蚀类型区,受地形、地貌、气候等因素影响,形成的水土流失形式也各不相同,需要按照不同的分区采取有针对性的防治措施。本文以青岛市黄水东调承接工程为例,探讨了长输管道工程水土保持设计技术,对水土流失特点进行分析总结,确定科学合理的水土保持措施体系,以期为编制类似项目水土保持方案、合理布设水土保持措施提供参考。

引黄入冀补淀省界水质监测现状与问题对策分析

探讨了引黄入冀补淀工程的水质监测现状,分析了省界断面水质监测数据,指出了存在的问题,并提出了相应的对策。通过优化水质监测站点布局及监测频次、加强沿线监督检查、提升生活污水处理能力、建立健全协调机制、强化法律法规和政策支持等措施,以期提高水质监测的准确性和及时性,为进一步实施水资源管理提供理论依据和实践指导。

引黄济青青岛段渠道断面流速测量与分析

论述了采用实时动态测量技术(RTK)和手持式流速仪进行渠道断面流速测量的方法,并结合地理信息系统(GIS)技术进行数据处理和成图,旨在通过对引黄济青青岛段渠道流速和流量的精确测量,更好地评估渠道水文动态,为水资源的合理利用和环境保护以及突发水质安全应急响应提供数据支持,为渠道的运行管理、水资源调配和环境保护提供科学依据。

Impact of vegetation restoration on hydrological processes in the middle reaches of the Yellow River,China

Sediment discharge from the Yellow River originates mainly from the drainage area between Hekouzhen and Longmen, i.e., the Helong area. Spatial-temporal variations of the vegetation cover in this area during the 1981-2007 period have been investigated using GIMMS and SPOT VGT NDVI data. We have also analyzed the interannual variations in vegetation cover and changes in annual runoff and sediment discharge, the consequences from precipitation change and the Grain for Green Project （GGP）. The results show that vegetation cover of the Helong area has increased during the 1981-2007 period. The northwestern part the Helong area, where the flat sandy lands are covered by grass, has experienced the largest increase. The region where the vegetation cover has declined is largely found in the southern and southeastern Helong area, which is a gullied hilly area or forested. Although precipitation was relatively low during the 1999-2007 period, the vegetation cover showed a significant increase in the Helong area, due to the implementation of the GGP. During this period, the most significant improvement in the vegetation cover occurred mainly in the gullied hilly areas of the Loess Plateau, such as the drainage basins of the Kuyehe and Tuweihe rivers and the middle and lower reaches of the Wudinghe and Yanhe rivers. A comparison of the average annual maximum NDVI between the earlier （1998-2002） stage and the next five years （2003-2007） of the GGP indicates that the areas with increases of 10% and 20% in NDVI account for 72.5% and 36.4% of the total area, respectively. Interannual variation of annual runoff and sediment discharge shows a declining trend, especially since the 1980s, when the decrease became very obvious. Compared with the 1950-1969 period, the average runoff during the 1980-2007 period was reduced by 34.8 × 10^8 m3 and the sediment discharge by 6.4 ×10^8 t, accounting for 49.4% and 64.9% of that in the 1950-1969 period, respectively. There is a positive correlation between the annual maximum NDVI and annual runoff and sediment discharge. This correlation was reversed since the implementation of the GGP in 1999 and vegetation cover in the He- long area has increased, associated with the decrease in runoff and sediment discharge. Less precipitation has been an important fac- tor driving the decrease in runoff and sediment discharge during 1999 2007. However, restoration and improvement of the vegetation cover may also have played a significant role in accelerating the decrease in annual runoff and sediment discharge by enhancing evapotranspiration and alleviating soil erosion.

Estimating minimum ecological water required of the western route first stage project of China＇s south-to-north water transfer scheme for water exporting rivers

It is well known that there is abundant water resources in basin of the Yangtze River, the first largest river in China, which is mainly located in Southern China. However, water resources is very scarce in the basin of the Yellow River, which is mainly located in Northern China. So the western route project of south-north water transfer scheme （WRP-SNWTS） aims to transfer water from the Yangtze River to the Yellow River. The area of WRP-SNWT, located in the upper reaches of the Yangtze River and the main areas of Sichuan and the marginal areas of the Qinghai-Tibet Plateau, has sufficient water resources but fragile ecology and environment. Therefore, it is necessary for WRP-SNWT to analyze the ecology water required. Based on the planning principles of from low elevation to high elevation, from small to large, from short to long and from easy to difficulty, the WRP-SNWT will be constructed through three stage projects. The western route first stage project of the south-north water transfer scheme （WRFST-SNWTS） is planned to transfer 4×10^9m^3/a from six tributaries of the Yalong river and from Dadu river to Jiaqu of Yellow River.. Daqu river and Niqu river are the branches of Xianshui river. Sequ river, Duke river, Make river and Ake river are the branches of Dadu river, which account for 65-70% of the total river run-off. It need more research and the rest run-off can satisfy channel ecology water required. According to analysis ecological water required which mainly satisfy for aquicolous biology in water-exporting region, such as low air temperature. Fish and aquicolous biology main living from May to August, and rivers are iced up from December to March of next year, ecology water required mainly for fish and aquicolous biology. The flow criterion of Tennant method is modified. The ecology water required of WRFSP-SNWTS is estimated by the flow data of Zhuwo gauging station, Zhuba gauging station, Chuosijia gauging station and Zumuzu gauging station. The result show that the ecology water required calculated by modified Tennant less 1 l percent than that of Tennant. This estimating result can supply more water resources for transferring to Yellow River. Meanwhile, this can supply gist for research transferring water of WRFSP-SNWTS.

引黄灌区水资源调配模型及和谐评估

基于引黄灌区普遍特征及存在的水资源问题,构建考虑水资源、经济社会和生态环境多维目标的水资源优化调配模型,建立引黄灌区水资源和谐评估指标体系,并将模型和评估体系应用到赵口引黄灌区二期工程。基于模型解集中选取的4种代表性优化调配方案进行水资源、经济社会、生态环境的效益分析,选定P_(4)方案为赵口二期水资源多目标优化调度方案,并基于该方案开展和谐评估和多方案调控研究。结果表明:模型优化后灌区和谐度明显提高,通过对和谐度较低的地下水开采率、农业用水比例、城镇化率、人均粮食产量、绿化覆盖率等指标调控后,和谐度可进一步提高到0.790。

基于黄河流域水资源均衡调配的南水北调西线一期工程水量配置

南水北调西线一期工程生效后黄河流域水量分配模式决定了黄河流域水资源配置格局重塑和南水北调西线工程供水效益评价,为国家水网构建提供重要技术支撑。考虑西线供水范围可覆盖黄河主要供水区的特点,西线调入水量应与黄河流域水资源统一配置,考虑生态优先、公平为主兼顾效率的原则,构建了流域用水分级配置方法,建立了基于流域水资源均衡调配的西线调入水量配置模式,开展了不同情景优化配置方案研究。结果表明:南水北调西线一期工程调水80亿m^(3),配置给黄河河流生态用水33.70亿m^(3),配置给流域河道外经济社会用水46.30亿m^(3),其中95%以上配置给黄河上中游地区,流域缺水率降低至7.0%~8.3%。优化配置方案体现了生态优先原则,保障了黄河河道内基本生态环境用水,均衡了河道外经济社会用水的公平和效率,有效缓解了流域缺水。