基于雷达估测降雨及WRF-Hydro模型的典型山洪模拟研究

受复杂地形与基础气象水文资料缺乏限制,山区小尺度流域的水文预警预报技术较为薄弱,利用高分辨率雷达观测资料驱动分布式水文模型是提高山区小流域洪水预报性能的有效途径之一。本文以位于重庆中部的山区小流域二河流域为研究区域,开展基于雷达估测降雨数据的WRF-Hydro模型在山区小流域的山洪模拟研究,以评估雷达估测降雨的水文应用效果和WRF-Hydro模型在山区小流域的适用性。选取流域内典型的暴雨洪水过程,利用S波段的多普勒天气雷达的估测降雨数据驱动WRF-Hydro模型,并结合新安江模型进一步对比分析模拟效果。研究结果表明:(1)在二河流域,采用雷达估测降雨数据驱动WRF-Hydro模型,可以较好地模拟洪水过程、洪水流量以及峰现时间,纳什效率系数高于0.65,克林-古普塔效率系数高于0.50,相关系数高于0.85。(2)将WRF-Hydro模型与新安江模型进行比较分析,在二河流域,WRF-Hydro模型的模拟效果优于新安江模型,纳什系数差值0.03,相关系数差值为0.04,进一步表明WRF-Hydro模型在山区小流域较优的洪水模拟性能。总体而言,基于雷达估测降雨数据的WRF-Hydro模型在二河流域表现出了良好的模拟洪水的性能,可进一步在类似小尺度山区流域进行应用研究。

海德鲁将投资1.8亿欧元新建西班牙铝回收厂Hydro1.

据外电2月1日消息,为响应欧洲能源转型计划,铝生产商挪威海德鲁(Hydro)将投资1.8亿欧元在西班牙新建一座铝回收厂,该厂年产能将在12万吨。海德鲁位于西班牙东北部的Torija工厂计划于2026年投入运营,到时候1吨铝将仅排放4吨碳。该工厂将于2024年下半年开始建设。建成后,Torija工厂将回收在欧洲收集的多达7万吨废铝.

基于MIKE HYDRO River模型的轨交交通施工期防汛安全影响论证

轨交交通施工期间,受车站结构设计、周边场地限制等因素影响,河道需要断流施工,断流会对区域的防洪除涝安全及水环境产生影响。本文以上海轨道交通13号线西延伸工程为例,构建一维河网水动力模型,分析排涝及引调水工况下水位及水质变化情况。结果表明,平原河网地区个别河道断流对于区域防洪除涝安全影响较小,会严重影响河道断流处的水环境;通过增设导流措施可以减轻断流的影响,为平原河网地区河道断流影响分析及措施制定提供依据。

Investigation of Oil Vapours in Hydro-Generator

The article discusses engineering approaches to solving the problem of oil vapours in generators. Due to the design characteristics of each power plant, it is difficult to find a typical solution. Nevertheless, the article suggests ways to reduce the amount of oil mist. For their implementation, a calculation methodology based on the substitution scheme of the hydraulic path of the bearing support unit is created which takes into account the design features of the bearing and the parameters of the environment around the oil bath. The methodology employed is presented. The numerical method of modelling the aerodynamic fields of the entire hydro generator is used to estimate the air flows and pressures in the oil bath zone of the thrust bearing. Additionally, the method made it possible to track suspected oil particles that could get from the thrust-bearing bath into the surrounding area of the generator. Measures are proposed to reduce the level of oil mist through the competent design of the oil vapour removal system from the bearing bath.

基于Arc Hydro Tools的祁连山国家公园小流域划分

以祁连山国家公园为研究区,基于30 m分辨率数字高程模型数据,利用Arc Hydro Tools水文数据模型与河网密度法,在确定最佳集水面积阈值的基础上提取河网并划分小流域,统计小流域的部分特征参数.结果表明,集水面积阈值与河网密度呈幂函数关系,祁连山国家公园最佳集水面积阈值为6000栅格数;河网提取结果与全国1∶250000三级水系流域数据集的河网套合差为2.62%,叠加至遥感图像对比,发现提取结果相较于全国1∶250000三级水系流域数据集更接近真实水系;共划分祁连山国家公园小流域5717个,约80%的小流域面积在3~50 km2.从提取效率和结果精度来看,Arc Hydro Tools模型与河网密度法相结合可较准确提取山地区域河网及小流域.

中国半湿润流域WRF-Hydro模型参数敏感性分析

为提高WRF-Hydro模型在中国半湿润流域的模拟预报精度,以半湿润的陈河流域为研究对象,选取了WRF-Hydro模型中土层厚度乘子、水箱模型指数、土层渗透系数、地表截留深乘子、地表糙率乘子和河道糙率乘子6个参数进行敏感性分析。通过数据模拟这6个参数在合理取值范围内的不同取值对洪水模拟及各评价指标的影响,定性分析了各参数的敏感性,并采用修正的Morris筛选法定量判断各参数的敏感性。结果表明:土层厚度乘子、土层渗透系数及河道曼宁糙率非常敏感,根据目标函数与典型洪水分析,建议分别在0.1~1.0、0.0~1.0、0.5~1.5内取值。

基于WRF-Hydro模式的沂河流域水文气象模拟参数优化研究

为优化适用于沂河流域WRF-Hydro模式水文气象预报模拟的参数方案,利用中国区域地面气象要素驱动数据与沂河流域内气象站点实测降雨数据驱动WRF-Hydro模式,采用分布率定法对模式几项主要的水文参数进行参数率定分析,选取相似暴雨引发的洪水过程对率定结果进行参数拟合验证。结果表明:WRF-Hydro模式的入渗系数和地表粗糙度对产流量影响具有非线性特征;河道曼宁糙率同时对产流量和汇流速度均有较明显的影响,曼宁糙率系数越小,汇流速度越快,产流量越大,峰现时间越早。入渗系数和河道曼宁糙率在所有率定参数中最敏感,尤其在非饱和土壤条件下。当入渗系数和河道曼宁糙率乘子分别为1.5和0.7、地表持水深度和地表粗糙度取模式默认值1.0时,径流过程模拟效果最优。

基于LSTM实时校正的WRF/WRF-Hydro耦合径流预报

为改进WRF/WRF-Hydro陆气耦合系统的径流预报效果,减小耦合系统在峰现时间、洪峰流量预报上的误差,本文在使用变分数据同化技术充分降低预报降雨误差水平的基础上,采用长短期记忆人工神经网络LSTM对WRF/WRF-Hydro耦合系统的径流预报过程开展了实时校正研究,并与自回归滑动平均模型ARMA实时校正结果进行对比。研究结果表明,通过数据同化技术可有效提升WRF模式降雨预报精度,降低WRF-Hydro模式的输入误差,但径流预报准确性仍有待提升。对比LSTM和ARMA两种实时校正模型对耦合径流预报结果的实时校正:在前3 h预见期,两种模型在中国北方半湿润、半干旱地区山区小流域6场典型洪水预报中的表现基本接近,除场次4外,LSTM和ARMA两种模型在3 h预见期的衰减速率分别为2.04~23.08和9.18~36.47,随着预见期的延长,LSTM径流预报精度的衰减速度在整体上慢于ARMA模型,预报效果优于ARMA模型。

高分辨率融合降水驱动下的WRF/WRF-Hydro耦合模拟研究

为了满足陆面水文模式和数值大气模式耦合构建降雨径流模拟系统的需求,构建了基于天气雷达与雨量站观测降水的3种高分辨率降水数据(雷达估测降水、雨量站插值降水和基于雷达与雨量站观测数据的融合降水),采用雨量站插值降水和融合降水数据对陆面水文模式WRF-Hydro的关键产汇流参数进行率定,探讨了不同降水驱动WRF-Hydro开展径流模拟在我国北方山区中小尺度流域的适用性。结果表明:融合降水的误差指标相比传统插值降水有不同程度的改善,融合降水的时空准确性也更为突出;采用雨量站插值降水和融合降水均可有效改善WRF-Hydro的关键产汇流参数,其中融合降水率定参数组的洪水模拟效果要优于雨量站插值降水;以高分辨率融合降水数据为驱动,可获得更准确的WRF-Hydro关键产汇流参数,有效提高WRF/WRF-Hydro陆气耦合系统在研究流域的适用性。

基于MIKEHYDRO Basin与多目标规划的阳泉市水资源配置方案研究

针对阳泉市水资源短缺、娘子关泉水保护、供水结构改变等问题,根据水资源供需情况,构建了多种多水源联合调度配置方案。使用MIKE HYDRO Basin软件搭建了不同方案的流域水资源配置模型,并利用多目标规划来对仿真结果进行分析,以寻求最优水资源配置方案。研究结果表明:方案三不仅在新的供水结构中以较低的供水量满足了阳泉市社会经济与生态长期平稳可持续运行的用水需求,还为娘子关泉域的保护提供了有利条件。研究结果为阳泉市水资源配置方案的选取提供了解决思路与科学的决策依据。

WRF-Hydro模型参数在河西内陆河流域的敏感性分析

为研究WRF-Hydro模型参数在河西内陆河流域的敏感性,以西营河流域九条岭水文站以上区域为研究区,在离线模式下利用2015—2018年的全球预报系统(GFS)数据驱动WRF-Hydro模型。基于LH-OAT方法对WRF-Hydro模型的6个主要参数对不同评价指标和空间分辨率的汇流演算网格的敏感性进行了分析,定量计算了各参数的敏感性指标,划分了敏感度等级,并结合典型洪水分析了各参数对洪水过程线的具体影响。结果表明:河道曼宁糙率乘子(MANNFAC)为极敏感参数,入渗系数(REFKDT)、土壤饱和导水率(REFDK)、深层导水系数(slope)为敏感参数,地表糙率乘子(OVROUGHRTFAC)为一般敏感参数,地表持水深度乘子(RETDEPRTFAC)为不敏感参数;各参数的敏感性并不是一成不变的,参数敏感度会受到评价指标的影响,有一定程度的变化;随着汇流演算网格空间分辨率的变化,各参数全局敏感度也会有小幅变化,但参数的全局敏感度等级不发生改变;MANNFAC对峰现时间的调节效果最好,REFKDT和REFDK对洪量和洪峰流量的调节效果显著,slope可以很好地调节洪水过程线的形状。

Micro Hydro Power Plant for Sustainable Energy in Rural Electrification: A Case Study in Cameroon

The state of Cameroon, faced with the situation the electricity deficits, is promoting the development of renewable energies in general and to meet rural electrification needs in particular. The purpose of this work is to study the feasibility of the MHP of Batcheu, to show its contribution to sustainable development in this locality and to prove that it is a profitable project. After study, it appears that the waterfall of Batcheu is favourable to the establishment of a MHP with an installed power of 260 kW with an operating diagram corresponding to a Francis turbine. Given that it is a renewable energy that can supply more than 800 households in rural areas, its contribution to sustainable development is obvious. Its investment cost is estimated at 171,465,396 FCFA. It is a profitable project with a payback time of 7 years and 2 months.

基于Arc Hydro模型的最优集水面积阈值分析

为提高河南省水土保持小流域划分工作的准确性与高效性,以河南省卢氏县、宜阳县和太康县分别作为山区、丘陵区和平原区的代表,基于分辨率12.5 m的DEM数据,利用Arc Hydro模型提取研究区河网信息,采用河网密度法研究集水面积阈值和河网密度、河网密度二阶导数的关系曲线,选取最优的集水面积阈值。结果表明:河网密度法可以避免传统方法在选取阈值时的盲目性与主观性,更加科学合理;不同地形的区域阈值选取也大不相同,卢氏县、宜阳县和太康县的最优阈值分别是50000、35000和30000,这说明在河南省小流域划分工作中应考虑到不同地形在河网提取时的影响,以保证小流域划分工作的精度。

WRF-Hydro模式结合不同降水产品模拟清江流域径流的效果分析

以2016—2017年清江流域2次大径流事件和3次小径流事件为研究对象,首先,分析了CMORPH卫星-地面自动站-雷达三源融合降水产品(CMPAS)、中国全球大气再分析产品(CRA)和雨量站降雨资料(Gauge)3种产品的降水时空分布特征;然后,基于径流事件实况与不同降水产品的特点,设计了两种径流模拟试验方案,对3种产品的降水数据输入WRF-Hydro模式的径流模拟结果进行分析。最后,结合降水时空分布差异,探讨3种降水产品在径流模拟中的应用效果。结果表明:(1)5次径流事件中,3种降水产品探测的降雨中心、雨带位置和走向大致相同,流域内面雨量随时间变化趋势较为一致。(2)两种试验方案下,3种降水产品均能模拟出各次径流事件。对大径流事件,CMPAS的模拟效果最优,相关系数均在0.76以上、纳什效率系数均在0.63以上;对小径流事件,Gauge的模拟效果最优,相关系数均在0.75以上,纳什效率系数均在0.48以上;CRA无论对大、小径流事件,其模拟效果相对都较差,但参数经重新率定后,其模拟效果明显改善。(3)3种降水产品经重新率定参数后(方案2),其在峰现、涨水、退水各时段的径流模拟效果改善不同。对小径流事件,相对涨水和退水时段,各产品在峰现时段的模拟效果改善较为明显,而对大径流事件,3种降水产品在各时段的模拟效果均无明显改善。

Enhanced Electric Power Adaptability Using Hybrid Pumped-Hydro Technology with Wind and Photovoltaic Integration

The integration of solar and wind energy into the electrical grid has received global research attention due to their unpredictable characteristics.Because wind energy varies across all timescales of utility activity,renewable energy generation should be supplemented and enhanced,from real-time,minute-to-minute variations to annual alterations influencing long-termstrategy.Wind energy generation does not only fluctuate but is also challenging to accurately forecast the timeframes of significance to electricity decision makers;day-ahead and long-term making plans of framework sufficiency such as meeting the network peak load annually.A utility that integrates wind and solar energy into its electricity mix would understand how to adapt to uncertainty and variability in operations while sustaining grid stability.Due to hydropower’s adaptability,a system using hydropower as one of its generating resources could be precisely adapted to absorb the variability of wind and solar energy.The objective of this research study is to create a hybrid system comprising hydro-wind and solar(Hybrid-HWS)integration for power balancing in an isolated electrical network in Klipkop village,Pretoria region,South Africa.The desirability of designing and building goaf storage tank in regard to capability,the fullness of line throughoutwater pumping,dispensing,storage tank spillage,and pressure difference throughout liquid flow within the storage tanks were preliminary assessed using geotechnical and weather forecasting data from a distinctive area of Klipkop town in Pretoria,South Africa.Different facility hours premised on daylight accessibility are scheduled to balance maximum load at early and late hours.However,in the scenario of electrical power,time shift requiring storage for extended periods of time,such as in terms of hours,Hybrid-HWS has been found to have a crucial role.The results of simulations showed a coordinated process design for Hybrid-HWS Energy Storage(ES)to determine everyday strategic planning in reducing the variability of the system resulting from wind-solar-pumped hydro ES output inadequacies and satisfy daily load demands.It could be recommended that by considering the adaptability characteristics,extremely rapidly,ramping,peaking support and maximum stabilizing aid of the system could be archived with pump-hydro into the energy mix which can provide specific guidelines for energy policymakers.

Problem of the Profitability of Irrigated Agriculture in the Sahel Environment: Case of Producers of the Konni Hydro-Agricultural Development

In Niger, a poor and arid country in West Africa, irrigated agriculture is undoubtedly the means with the greatest chance of ensuring food and nutritional security, increasing incomes and therefore reducing poverty, especially in rural areas. This research aims to analyze the profitability of irrigated agriculture at the level of the hydro-agricultural development of Konni. The methodological approach adopted is based on the method of “Rapid Participatory Diagnosis and Planning of actions to improve the performance of irrigated perimeters (DPRP)”. The documentary research made it possible to capitalize on the information available on the question. The collection of primary data in the field was carried out using questionnaires and interview guides submitted to actors directly or indirectly involved in the management of Konni’s AHA, taken individually or in focus group discussions. The data collected was processed with SPSS software to be analyzed and graphically illustrated with the Excel spreadsheet. The performance analysis made it possible to identify yields and constraints to the development of irrigated agriculture. The results show that on the Konni perimeter, there is a general trend towards a reduction in areas both in SS and in SH, with higher development rates in SH (80% to 90%), whereas they are very low in SS (8% to 25%). The main crops favored by Konni producers are onions, tomatoes, cabbage, corn and sorghum. Onion and tomato crops are more important sources of income than dune crops. In this context, the main challenges to be met for a better profitability of irrigated agriculture concern the socio-economic context of production, insufficient financing of infrastructures and their maintenance, small areas often below the break-even point, environmental degradation.

弹塑性多孔介质流固耦合新理论:混合耦合理论

在全球气候变化和双碳政策的大背景下,多孔介质中固体的变形和流体的输运问题变得尤为重要。然而,在多孔介质中建立流固耦合模型仍面临的挑战之一是需要考虑跨越宏观尺度到纳米尺度的耦合作用。本文利用基于非平衡热力学的混合耦合理论,提出了一个弹塑性多孔介质流固耦合新模型,在同一个理论框架内研究了弹性变形、塑性变形和液体渗流之间跨尺度的耦合,考虑了耗散过程中的熵产,并利用Helmholtz自由能连接宏观尺度上的力学变形和纳米尺度上的液体输运之间的相互作用。在应力-应变关系中采用了弹塑性刚度系数以反映塑性的影响。同时,经典的达西定律扩展为可考虑固体的塑性变形。通过与文献中模型的比较,验证了该模型的有效性。最后,数值分析表明在多孔介质的流固耦合中塑性变形具有比较显著的影响。

基于云模型的水光互补清洁能源基地容量配置方案优选

为优选水光互补清洁能源基地容量配置方案,从安全性、环保性、经济性、技术性4个方面选取14个指标构建了综合评价指标体系,采用改进云模型方法对容量配置方案进行评价。改进云模型方法以基于层次分析法改进的云模型求解主观权重,以熵权法求解客观权重,组合赋权得到指标权重,再利用条件云发生器计算各指标的隶属度,最后根据级别特征值法计算容量方案等级评分,确定最优方案。将该方法应用于我国西南某清洁能源基地水光互补系统容量配置方案的优选,优选结果与集对分析法优选结果和实际选择方案均相符,证明了该方法的有效性与适用性。

木材用于水伏发电的研究进展

化石能源的过度使用带来能源枯竭与环境恶化问题,绿色可持续成为发展的首要目标。水能作为目前较为优质的清洁能源,其中一部分潜在的能量有待转化利用。近年来,水伏发电受到国内外学者的广泛关注,被认为是一种新兴的深度挖掘水能资源的手段,研究者们取得了一系列关于功能材料与水滴、水波、水蒸发与湿气等相互作用输出电能的研究成果。开发生物质基水伏发电材料有助于推动可再生能源的充分利用。木材是一种储量充足、可再生、易加工的材料,同时具有独特的多级孔道结构,内部富含极性基团,有良好的机械强度,因此木材在水伏发电领域具有一定应用前景。笔者总结了水伏发电技术的研究进展,阐述了水伏发电的理论基础,基于水伏效应的能量转换方式及其器件材料的选择,介绍了木材用作水伏发电器件材料的研究成果,归纳了研究者为提高水伏发电器件的输出功率,对木材进行表面修饰、孔道调控、材料负载、碳化处理的功能化改性方法,并对其面临的挑战与应用前景进行展望。

先进抽水压缩空气复合储能技术

储能技术的创新突破成为带动全球能源格局革命性、颠覆性调整的必经之路,是实现“碳中和、碳达峰”目标的重要举措。为此,西安交通大学“先进物理储能技术”研究团队创新性地发明了新型抽水压缩空气复合储能技术。该技术采用空气和水作为混合工作介质,利用水力机械设备和空气透平作为系统的复合做功设备,实现储能介质高效等温压缩/膨胀。相比于传统压缩空气储能技术,新型气液复合空气储能技术具有响应快、效率高、投资成本低等优点。团队通过10余年的攻关研究,完成了关键设备与储能系统的性能表征、时域特性研究、流体机械关键共性技术集中攻关、空气储能技术全寿命周期性能评估软件的研发及应用,研究成果可为气液复合压缩空气储能技术的规模化推广应用提供坚实的理论与数据支撑。