| 三川河流域水资源演变个例研究 |
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| 引用本文: | 仇亚琴,周祖昊,贾仰文,秦大庸,王浩,严登华,姜乃迁,王国庆.三川河流域水资源演变个例研究[J].水科学进展,2006,17(6):865-872. |
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| 作者姓名: | 仇亚琴 周祖昊 贾仰文 秦大庸 王浩 严登华 姜乃迁 王国庆 |
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| 作者单位: | 1.中国水利水电科学研究院水资源研究所, 北京, 100044; |
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| 基金项目: | 国家自然科学基金;中国水利水电科学研究院科研基金;黄河水利委员会科研基金 |
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| 摘 要: | 以三川河流域为例,应用WEP-L分布式水文模型和集总式流域水资源调配模型偶合而成的二元水循环模型,模拟了不同情景下流域水循环过程.在此基础上,定量分析了降水、人工取用水以及下垫面条件这三个主要驱动因子对流域水资源演变的影响.在模型中保持其它条件不变,仅以改变降水、人工取用水及下垫面条件来模拟种不同情景的水循环:情景1,1956-1979年降水系列、2000年下垫面、无人工取用水;情景2,190-2000年降水系列、2000年下垫面、无人工取用水;情景3,1956-2000年降水系列、2000年下垫面、无人工取用水;情景4,1956-2000年降水系列、2000年下垫面、有人工取用水;情景5,1956-2000年降水系列、1956-2000年系列模拟下垫面、无人工取用水;情景6,1956-2000年降水系列、2000下垫面、无人工取用水;情景7,1956-1979年降水系列、1956-1979年系列模拟下垫面、无人工取用水;情景;190-2000年降水系列、2000年下垫面、有人工取用水.情景2和情境1比较,发现降水单项因子减少4.5%引起各种口径水资源量的减少,地表水资源量减少1.4%,地下与地表水资源不重复量15.%,狭义水资源量1.3%,有效蒸散发量2.1%,广义水资源量4.6%.情景4和情境3比较得出,在人工取用水单项因子作用下,地表水资源量减少4.6%,而地下与地表水资源不重复量增加113.5%,在狭义水资源量减少0.4%的同时,伴随有效蒸散发量增加0.9%,广义水资源量增加0.7%.情景6和情境5对比,发现在下垫面条件单项因子作用下,狭义水资源量及其构成地表水资源量和地下与地表水资源不重复量分别减少4.3%、4.3%和2.%,有效蒸散发量增加7.1%,广义水资源量增加5.3%.情景和情境7对比分析得出,三个因子对水资源量的综合影响是,地表水资源量减少30.6%,地下与地表水资源不重复量增加114.5%,狭义水资源量减少25.%,有效蒸散发量增加6.7%,广义水资源量增加1.1%.研究成果对于其它流域水资源演变规律研究具有参考价值.
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| 关 键 词: | 三川河流域 水资源演变 分布式水文模型 WEP-L模型 水资源调配模型 二元水循环模型 |
| 文章编号: | 1001-6791(2006)06-0865-08 |
| 收稿时间: | 2005-06-03 |
| 修稿时间: | 2005-08-29 |
A case study on the evolutionary law of water resources in Sanchuan river basin |
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| QIU Ya-qin,ZHOU Zu-hao,JIA Yang-wen,QING Da-yong,WANG Hao,YAN Deng-hua,JIANG Nai-qian,WANG Guo-qing.A case study on the evolutionary law of water resources in Sanchuan river basin[J].Advances in Water Science,2006,17(6):865-872. |
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| Authors: | QIU Ya-qin ZHOU Zu-hao JIA Yang-wen QING Da-yong WANG Hao YAN Deng-hua JIANG Nai-qian WANG Guo-qing |
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| Affiliation: | 1.China Institution of Water Resources and Hydropower Research, Beijing 100044, China;2.Yellow River Institute of Hydropower Research, Zhengzhou 450003, China |
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| Abstract: | We apply the distributed hydrological model(WEP-L model) with physical mechanism to simulate hydrological cycle under the different conditions of Sanchuanhe basin as a case study,and analyze the quantitative influence of the different factors such as precipitation,water use and underlying surface on the evolution of water resources on the basis.Eight cases are described: Case I,the precipitation data in 1956-1979,the underlying surface data in 2000 and the zero water use;case 2,the precipitation data in 1980-2000,the underlying surface data in 2000 and the zero water use;case 3,the precipitation data in 1956-2000,the underlying surface data in 2000 and the zero water use;case 4,the precipitation data in 1956-2000,the underlying surface data in 2000 and the real water use;case 5,the precipitation data in 1956-2000,the underlying surface data in 1956-2000 and the zero water use;case 6,the precipitation data in 1956-2000,the underlying surface data in 2000 and the zero water use;case 7,the precipitation data in 1956-1979,the underlying surface data in 1956-1979 and the zero water use;and Case 8,the precipitation data in 1980-2000,the underlying surface data in 2000 and the real water use.The comparison of case 1 and case 2 show that 4.5% reduction of precipitation causes the decrease in water resources in all forms: 18.4% surface water resources and groundwater resources,15.8% not overlapped with surface water resources,18.3% special water resources,2.1% precipitation effective utilization and 4.6% general water resources.In case 4,the surface water resources reduce by 4.6% but the not-overlapped groundwater resources and surface water increase by 113.5%,and the special water resources decrease by 0.4% but the general water resources increase by 0.7%,and 0.9% increase of the precipitation effective utilization compared with that in case 4.Comparing with the water resources in case 5,the special water resources decrease by 4.3% with 4.3% and 2.8% decrease of not-overlapped surface water resources and groundwater resources,while the general water resources increase by 5.3% with 7.1% increase of the precipitation effective utilization in case 6.In case 8,the general water resources decrease by 25.8% with 30.6% decrease of surface water and 114.5% increase of not-overlapped the groundwater and surface water,and the precipitation effective utilization and the general water resources increase by 7.1% and 5.3% compared with that in case 7.The research achievement can be referenced in other basins. |
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| Keywords: | Sanchuan river basin evolution of water resources distributed hydrological model WEP-L model water resources allocation model dualistic hydrological model |
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