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邵学军, Xuejun SHAO, Hong WANG, and Zhaoyin WANG,
International Journal of Sediment Research, Vol. 20, No.2, 2005, pp. 102~108,-0001,():
-1年11月30日
Sediment supply to the lower Jingjiang River will be subject to substantial reduction after the impoundment of the Three Gorges Reservoir, which could result in an excess of carrying capacity and serious bank erosions in the downstream alluvial channel, t
Three Gorges Reservoir,, Downstream impact,, Fluvial processes,, Yangtze River
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邵学军, 费祥俊
泥沙研究,2004,1,1~8,-0001,():
-1年11月30日
小流域沟道是泥沙进入江河的初级通道,在洪水流量较大时,沟道挟沙力强,其输沙量往往接近断面以上流域侵蚀量,进入江河的沙量取决于流域内的补给沙量,但在洪水流量较小时,沟道水流挟沙力下降,其输沙量小于断面以上流域侵蚀量,进入江河的沙量取决于各级沟道的挟沙能力。黄土地区小流域沟道纵坡陡,固体物质补给又十分丰富,虽然沟道尺度不大,但水流含沙量却很高,已有各种基于低含沙水流的挟沙公式不能表达沟道中高含沙水流的输沙特性。作者通过分析及试验研究,求得在输沙平衡条件下水流泥沙因子间的关系,提出小流域沟道挟沙力公式,经初步验
小流域, 沟道, 高含沙水流, 挟沙力, 流域产沙量
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【期刊论文】Interbasin transfer projects and their implications: A China case study
邵学军, XUEJUN SHAO and HONGWANG, ZHAOYIN WANG
,-0001,():
-1年11月30日
In large countries with sharp temporal and spatial variation in water resources, interbasin water transfer projects seem to be an ultimate solution to ease water shortage and secure a balanced economic development among different regions. However, such pr
Interbasin water transfer, China, water resources, Yangtze River.,
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邵学军, ZHICONG CHEN, XUEJUN SHAO, JUNWU ZHANG
Journal of Hydraulic Research Vol. 00, No.0 (2005), pp. 1-7,-0001,():
-1年11月30日
Results of a mobile bed flume experiment on submerged dam scour are presented. Expressions are established for the upstream water level rise and downstream scour length caused by the dam, using the Froude numbers at the dam site before and after dam const
Bed flume experiment,, scour length,, submerged dam.,
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【期刊论文】Numerical modeling of turbulent flow in curved channels of compound cross-section
邵学军, Xuejun Shao*, Hong Wang, Zhi Chen
X. Shao et al./Advances in Water Resources, 2003, 26, 525~539,-0001,():
-1年11月30日
A mathematical model based on orthogonal curvilinear coordinate system is developed which applies several algebraic stress models to simulate secondary currents in helically coiled channels. The model is validated using measurements in curved open channel
Orthogonal curvilinear coordinate system, Turbulence models, Curved open-channel, Compound cross-section
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