在洪水期间进行横向水库运行的排水系统

2014 IEEE International Conference on Automation, Quality and Testing, Robotics Pub Date : 2014-05-22 DOI:10.1109/AQTR.2014.6857922

D. Radu, A. Draghia

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引用次数: 1

摘要

在多瑙河下游(铁门下游)，罗马尼亚一侧的河岸被长达1100公里的堤坝保护着。多瑙河沿岸的不同城镇，如Giurgiu、Oltenita、Calarasi、Braila和Galati，仍然受到接近或高于1%的洪水威胁。洪泛区被横堤分隔成围地，围地可作为侧库(圩田)，在高洪水时用于蓄水和降低下游水位。为了评估意外或故意淹没围场的不同情况下的水力后果(水位、最大流量)，UTCB开发了一个决策支持系统(DSS)。建立了裂口发育的特殊子模型(裂口高程和长度演化)。由于水力模拟耗费时间和其他资源，因此采用了洪水传播的水文模型。基于2006年和2010年的异常洪水记录，进行了参数定标和验证，并对不同情景的围堰淹没进行了测试。

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DSS for operation of the lateral reservoirs during flood period

On the lower Danube (downstream Iron Gates) the river banks on the Romanian side are protected by dykes on a length of 1100 km. Different towns along the Danube River, like Giurgiu, Oltenita, Calarasi, Braila and Galati are still threatened by floods close to or higher than 1% probability of exceedance. The floodplain is divided by transverse dykes into enclosures, which could be used as lateral reservoirs (polders) for storing water and decreasing downstream water level during high floods. A Decision Support System (DSS) was developed by UTCB in order to evaluate the hydraulic consequences (water level, maximum discharge) for different scenarios of accidental or deliberate flooding of enclosures. A special sub-model for breach development (breach elevation and length evolution) was set up. Since the hydraulic simulations are time and other resources consuming, a hydrological model for flood propagation was used. After parameters calibration and validation based on registered exceptional floods in 2006 and 2010, different scenarios of enclosures inundation were tested.

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2014 IEEE International Conference on Automation, Quality and Testing, Robotics

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