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枢纽下游河床清水冲刷粗化研究综述 总被引:1,自引:0,他引:1
天然河流修建水库后,下游河道发生的最大变化就是河床冲刷粗化。河床冲刷与粗化的研究在水利、水运、水电工程中有着重大的实际意义,是解决山区及丘陵区水利工程面临的河床冲刷粗化所引起的河床演变的关键问题之一。国内外众多学者专家都对冲刷粗化问题进行过研究,文章意在总结已有枢纽下游河床冲刷粗化的研究成果,包括冲刷与粗化机理、冲刷粗化起动流速计算、粗化输沙率计算、粗化层级配计算、极限冲刷深度计算及冲刷后水位降落计算等。并对现有研究成果进行了简要的述评,为后续对这一问题进行深入研究作出必要的准备。 相似文献
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闽江水口枢纽坝下水位治理工程通航船闸长宽比达到16.7∶1,且要求输水时间较短、水力指标较高。根据《船闸输水系统设计规范》和该船闸的具体特点,确定了输水系统形式及各主要部位的尺寸和细部布置,对输水系统的水力特性、输水阀门工作条件及闸室和上下游引航道内的船舶停泊条件进行了计算分析,水力计算表明:设计的输水系统各项水力特性均满足规范和设计要求。 相似文献
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结合嘉陵江草街航电枢纽模型试验,研究枢纽下游局部冲刷对河床变形带来的影响,初步分析了枢纽建成后下游河床冲淤变化机理,从而有利于预测枢纽建成后下游河床冲淤变形趋势. 相似文献
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结合嘉陵江草街航电枢纽模型试验,研究枢纽下游局部冲刷对河床变形带来的影响,初步分析了枢纽建成后下游河床冲淤变化机理,从而有利于预测枢纽建成后下游河床冲淤变形趋势。 相似文献
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The well-known feedback ramp metering algorithm ALINEA can be applied for local ramp metering or included as a key component in a coordinated ramp metering system. ALINEA uses real-time occupancy measurements from the ramp flow merging area that may be at most a few hundred meters downstream of the metered on-ramp nose. In many practical cases, however, bottlenecks with smaller capacities than the merging area may exist further downstream, which suggests using measurements from those downstream bottlenecks. Recent theoretical and simulation studies indicate that ALINEA may lead to poorly damped closed-loop behavior in this case, but PI-ALINEA, a suitable Proportional-Integral (PI) extension of ALINEA, can lead to satisfactory control performance. This paper addresses the same local ramp-metering problem in the presence of far-downstream bottlenecks, with a particular focus on the employment of PI-ALINEA to tackle three distinct cases of bottleneck that may often be encountered in practice: (1) an uphill case; (2) a lane-drop case; and (3) an un-controlled downstream on-ramp case. Extensive simulation studies are conducted on the basis of a macroscopic traffic flow model to show that ALINEA is not capable of carrying out ramp metering in these bottleneck cases, while PI-ALINEA operates satisfactorily in all cases. A field application example of PI-ALINEA is also reported with regard to a real case of far downstream bottlenecks. With its control parameters appropriately tuned beforehand, PI-ALINEA is found to be universally applicable, with little fine-tuning required for field applications. 相似文献