万家寨引黄工程联接段调节水库泥沙冲淤分析研究
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摘要
水库的泥沙淤积是多泥沙河流上普遍存在的问题,其表现形式异常复杂。汾河水库作为引黄工程南干联接段的近期调节水库,也存在泥沙淤积问题;随着汾河水库泥沙淤积的加剧,兴利库容将逐年减少并逐渐失去对引黄水的调节能力,需要在上游修建新的调节水库,在这种情况下,进行了万家寨引黄工程联接段调节水库泥沙冲淤分析研究,主要目的就是确定南干调节水库汛期运用方式、汾河水库、汾河二库、好水沟水库联合运用的淤积形态,以及汾河水库异重流排沙规律和汾河水库的运行调度方式。
     本研究采用“河流与水库统一冲淤模型”,利用1967年的实测资料对采用的模型、参数进行了验算,建立了调节水库的泥沙冲淤模型;同时根据汾河水库1977年7月6日~7日的实测异重流资料,参考官厅水库的部分资料,对汾河水库的异重流排沙进行了分析。
     通过分析计算,汾河水库的淤积形态呈明显的三角洲形态,而汾河二库基本呈锥体分布,库尾有不明显的三角洲形态,好水沟水库淤积形态基本呈带状分布。
     对于水库运用方式,有如下结果:汾河水库死水位汛期应高于淤积高程6m,非汛期应高于4m。在2020年前汛期死水位不低于高程1122m。
    
     太原理工大学硕士学位论文
     为了使汾河水库不形成浑水水库,汾河水库、汾河二库、好
    水沟水库应进行联合调度运用,在排出大量泥沙同时,可满足
    城市生活及工业需水要求,对农业供水影响较小,而且采用该
    方式可减轻汾河水库淤积,延长水库寿命。
     经过本研究,建立了汾河水库的泥沙冲淤计算的数学模型,
    为以后汾河流域内大中型水库的泥沙冲淤分析计算提供一个可
    参考的模型,同时研究了汾河水库汛期的异重流排沙问题,提
    出了三库联合运用的运行方式,为水库以后的调度运行提供了
    依据。
     本研究成果对于万家寨引黄工程是非常重要的,它提出了南
    干线调节水库的淤积形态以及水库运用方式,对于减缓汾河水
    库的淤积,延长引黄南干调节水库的寿命,保证引黄水的取水
    质量提出了合理的建议,所建立的泥沙冲淤数学模型、异重流
    排沙规律具有一定的实用意义,为以后汾河流域类似条件下的
    水库冲淤计算积累了经验,提供了参考的依据。
The sedimentation of the reservoir is a general existing problem for the rivers rich in sand and the appearance of the problem is also extremely complex. The Fen 1 Reservoir, as the short term regulating reservoir of SM Connection Works, also has the sedimentation problem. With the increasing sedimentation and the useful storage decreasing, the reservoir is losing the ability of regulating and a new reservoir will be needed to build upstream the river. In this case, in order to determine the operation mode of the reservoir in flood season, the joint operation of Fen 1, Fen 2 and Haoshuigou reservoir, the density flow desilting rule and the control mode of the Fen 1 reservoir, we analyze the disilting for the regulating reservoir of Wanjiazhai Yellow River Diversion Project Connection Works.
    The analysis adopts a model entitled "the Model of Silt Souring for River and Reservoir " , calculates the model and parameters and establishes the model of disilting the regulating reservoir based
    
    
    upon the data in 1967. We also analyze the density flow desilting of Fen 1 reservoir in accordance with the data from July 6 to 7, 1977 and the partial data from Guanting reservoir.
    According to the calculation, the sedimentation feature of the Fen 1 reservoir is the triangle, the Fen 2 reservoir is taper and the Haoshuigou is strap.
    We also got the results about operation mode of the reservoir as follows: the dead storage in flood season should be 6m higher than the sedimentation elevation and 4m higher in the non-flood season. By 2002, the dead storage in flood season should not less than elevation 1122m.
    In order to avoid making the Fen 1 reservoir to be a muddy water reservoir, the Fen 1, Fen 2 and Haoshuigou reservoir should be jointly controlled and operated. While the reservoir can discharge large amount of the silt, it can meet the requirement of the urban and industrial supply, bring light effect to the agriculture water supply, and alleviate the sedimentation of the Fen 1 reservior and prolong the life circle of the reservoir. This analysis established a mathematic model of disilting calculation of Fen 1 reservoir, provided a reference model for the major and middle size reservoir in Fen river basin, analyzed the density disilting of the Fen 1 reservoir in flood season, raised a model of three dimension reservoirs joint operation, reduced the sedimentation of the Fenl reservoir and provided a base for the future control.
    The analysis is very important for the Yellow River Diversion
    
    Project as it gives the sedimentation feature and operation model of SM regulating reservoir, which is significant for alleviating the sedimentation of Fen 1 reservoir, prolonging the life circle of the reservoir and assuring the quality of the yellow river water. The mathematic model of disilting and desity disilting rule has practical significance and provides reference and experience for the future calculation with similar situation in Fen river basin.
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