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    数字流域模型淤地坝模块改进及减水减沙效益评估

    Improvement on the Check-dam Module in the Digital Yellow River Model and Assessment of Water and Soil Conservation Benefits

    • 摘要: 淤地坝具有重要的水土保持作用, 但其减水减沙效益的科学评估仍存在困难. 一方面, 淤地坝减水减沙的物理机制仍难以刻画; 另一方面, 观测资料有限且难以获取. 以概化淤地坝卧管及溢洪道等部分的泄流机制及整体水沙调控机制为基础, 改进和检验了数字流域模型的淤地坝模块, 应用改进后的模型模拟皇甫川流域水沙过程并评估淤地坝减水减沙效益. 研究结果表明:不考虑淤地坝的情况下, 模型对淤地坝数量较少的近似自然状态期(1979~1986年)适用性较好, 而对淤地坝数量较多的受扰状态期(2007~2012年)适用性较差, 水沙模拟值明显高于实测值. 考虑淤地坝的物理机制后, 与原模型相比, 除个别年份外, 改进后的模型对受扰状态期水沙过程的模拟精度具有明显的提高, 其逐日流量NSE(Nash-Sutcliffe效率系数)从-51.085~0.450提高到0.134~0.802, 逐日输沙率NSE从-56.740~0.390提高到0.066~0.857. 使用改进后的模型计算得受扰状态期淤地坝平均拦水量为0.142×108m3, 减水效益为40.9%; 平均拦沙量为0.050×108t, 减沙效益为50.3%. 研究成果可为认识淤地坝调控水沙物理机制提供模型支撑和为淤地坝建设规划提供科学指导.

       

      Abstract: Check-dams have a significant effect on water and soil conservation, but there are great difficulties in the scientific assessment of water and soil conservation benefits of the check-dams. On the one hand, check-dams' physical mechanisms are still not clear, and their observations are limited and difficult to obtain. In this paper, the check-dam module of DYRIM has been improved and verified based on the conceptualization of the drainage mechanisms of pipes and spillways and the overall operating mechanisms, then the runoff and sediment discharge were simulated and the water and soil conservation benefits were assessed based on the improved model. The results showed that:without the check-dams, DYRIM had good feasibility during the approximate natural state (from 1979 to 1986) when there were fewer check-dams, while it had poor feasibility during the disrupted state (from 2007 to 2012) when there were more check-dams with the simulated runoff and sediment discharge were much higher than the observation. With the mechanism of check-dams were considered, the modeling accuracy was improved a lot during the disrupted state except for some year, the range of daily runoff NSEs were increased from -51.085~0.450 to 0.134~0.802, the range of daily sediment discharge were increased from -56.740~0.390 to 0.066~0.857. The impact of check-dams was evaluated with the improved DYRIM, the interception effect of check-dams contributed to decreasing the runoff volume and sediment load by approximately 14.2 million m3 and 5 million tons annually, which accounted for 40.9% and 50.3% of the total runoff and sediment respectively. The results look forward to providing theoretical support for understanding the regulating mechanisms of check-dams on the dynamic process of water and sediment and scientific guidance for the check-dam construction plan.

       

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