Research on a New Physical Based Hydrological Model Applied in Ebinur Lake Basin in China

Wang Yue-jian; Du Jing; Liu Yang; Liu Zhi-hui

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Research on a New Physical Based Hydrological Model Applied in Ebinur Lake Basin in China

机译：一种新的基于物理的水文模型在中国艾比湖流域的应用研究

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The physical based hydrologic model based on grid-scale for water resources management (WYJ) was applied into the Ebinur Lake basin in Xinjiang Province, China. Several physical parameters were considered in this model and calculated based on the physical properties by combination with GIS tools. We have considered the warm-up period in order to reduce the error accoused by the uncertainty produced from the physical model. After the calibration and validation of the model, the results showed that the model was able to simulating the basin hydrological processes with high efficiency especially in ground surface. The N-S efficiency coefficient was once exceeded 0.85 in simulation periods and R~2 can also reach 0.92. We can draw a conclusion that this physical model can be applied into the Ebinur Lake basin and can provided for decision making for the government.

机译：将基于网格规模的基于物理的水资源管理水文模型（WYJ）应用于中国新疆省的艾比湖湖流域。在此模型中考虑了几个物理参数，并结合GIS工具根据物理属性进行了计算。我们考虑了预热期，以减少物理模型产生的不确定性引起的误差。经过模型的校准和验证，结果表明该模型能够高效模拟流域水文过程，尤其是在地面。在仿真期间，N-S效率系数曾经超过0.85，R〜2也可以达到0.92。我们可以得出一个结论，该物理模型可以应用于艾比湖湖流域，并可以为政府决策提供依据。

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来源
《Nature environment and pollution technology》 |2014年第1期|37-42|共6页
作者
Wang Yue-jian; Du Jing; Liu Yang; Liu Zhi-hui;
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作者单位

School of Resources and Environment Science, Xinjiang University, Urumqi 830054, China,Geography Department of Shihezi University, Shihezi 832000, China;

School of Computer Science and Technology, Xinjiang normal university, Urumqi, 830054, China;

School of Resources and Environment Science, Xinjiang University, Urumqi 830054, China;

Institute of Ecology & Environment of Xinjiang University, Urumqi, Xinjiang 830046, China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Water resource management; Hydrologic model; GIS; Grid-scale; Ebinur lake basin;

机译：水资源管理;水文模型地理信息系统网格规模;艾比湖湖盆;
入库时间 2022-08-18 01:58:54

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1. Research on a New Physical Based Hydrological Model Applied in Ebinur Lake Basin in China [J] . Wang Yue-jian, Du Jing, Liu Yang, Nature environment and pollution technology . 2014,第1期

机译：一种新的基于物理的水文模型在中国艾比湖流域的应用研究
2. Hydrological Response of Runoff to Climate Change of Typical Tributaries in Ebinur Lake Basin of Xinjiang [J] . Wang Yuejian, Liu Zhihui, Yao Junqiang, Water resources . 2018,第2期

机译：新疆贝宁湖盆地典型支流气候变化的水文反应
3. Satellite Remote Sensing and Hydrologic Modeling for Flood Inundation Mapping in Lake Victoria Basin: Implications for Hydrologic Prediction in Ungauged Basins [J] . Khan S. I., Hong Y., Wang J., Geoscience and Remote Sensing, IEEE Transactions on . 2011,第1期

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4. Precipitation in Ebinur Lake Basin of Xinjiang, China [C] . Hu Jiang-ling, Sun Haojie Conference on Environmental Science and Information Application Technology . 2010

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5. Comparison of distributed versus lumped hydrologic simulation models using stationary and moving storm events applied to small synthetic rectangular basins and an actual watershed basin. [D] . Shultz, Michael Jay. 2007

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6. Estimation of the Fe and Cu Contents of the Surface Water in the Ebinur Lake Basin Based on LIBS and a Machine Learning Algorithm [O] . Xianlong Zhang, Fei Zhang, Hsiang-te Kung, 2018

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7. Distinguishing between anthropogenic and climatic impacts on lake size: a modeling approach using data from Ebinur Lake in arid northwest China [O] . Long Ma, Jinglu Wu, Wen Liu, 2014

机译：区分人为和气候对湖泊面积的影响：利用中国西北干旱地区艾比湖的数据建模方法

Research on a New Physical Based Hydrological Model Applied in Ebinur Lake Basin in China

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