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NUMERICAL SIMULATION OF ICE CONTROL EFFECT OF SOLAR ENERGY ON TIBETAN CHANNELS被引量：2: 2007年; With the Tanghe Diversion Channel in Tibet as an example, the theoretical study on the ice control effect of the solar sacks was conducted based on the previous study. The numerical simulation method was adopted and a one-dimensional numerical model for ice crystal in diversion channels in high-altitude cold regions was developed in this article. The heat transfer through the air-water interface and the mass transfer between ice and water were considered in the model. The model was validated by the field observation data on the diversion channel of the Tanghe Hydropower Station. The results show that the ice control effect of the solar sacks is obvious in the channel with large mass flow rate in the high-altitude cold regions.; AN Rui-dongCHEN Ming-qianLI RanBanjiucirenSHI Yun-qiang; 关键词：太阳能

紫坪铺坝下游过饱和溶解气体原型观测研究被引量：24: 2008年; 在总结国内外关于水电站大坝下游总溶解气体(TDG)过饱和问题的研究现状的基础上,对紫坪铺坝下游河段的过饱和气体进行了原型观测,指出下泄流量与下游TDG饱和度有着较好的相关关系;河道水深是影响过饱和气体消减速率的重要因素;在同样单宽流量下,含沙水体比清水有更高的TDG饱和度。这一研究为更深入的开展高坝下游过饱和溶解气体的产生及消减过程理论研究提供了依据,对高坝下游水生生物保护具有重要作用。; 蒋亮李嘉李然李克锋; 关键词：过饱和

高坝下游水体中溶解气体过饱和问题研究被引量：20: 2008年; 提出高坝下游水垫塘中总溶解气体(TDG)饱和度的计算与下游河道水体TDG饱和度的计算应采用不同的方法;并利用高速射流实验,及自行设计的产生TDG过饱和的实验装置,进一步分析了高坝下游水体中TDG过饱和的成因,找到了影响大坝下游TDG释放速率的主要因素。指出由于水垫塘中气泡被带入水体深处,使得水体存在溶解度梯度,溶解度沿着水深方向增加,深处水体能溶解更多的气体,在水流的紊动掺混下,高浓度的溶解气体被带入到较浅水深处,造成部分水体TDG过饱和。在没有掺气的条件下,过饱和溶解气体释放速率随着紊动强度的增大而增大,随着水深的增加而减少。; 蒋亮李然李嘉李克锋; 关键词：过饱和饱和度射流紊动

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国家自然科学基金(50469002)