期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
景电二期工程泵站改扩建研究 被引量:1
1
作者 周燕云 《甘肃水利水电技术》 2001年第3期194-194,共1页
对高扬程电力提灌节水、节能改扩建工程 ,机型选择和流量级配应当同时设计考虑黄河泥沙“量”对水泵的影响 。
关键词 节水 节能 机型 流量级配 泵站
下载PDF
Mass-front velocity of dry granular flows influenced by the angle of the slope to the runout plane and particle size gradation 被引量:18
2
作者 FAN Xiao-yi TIAN Shu-jun ZHANG You-yi 《Journal of Mountain Science》 SCIE CSCD 2016年第2期234-245,共12页
The mass-front velocities of granular flows results from the joint action of particle size gradations and the underlying surfaces.However,because of the complexity of friction during flow movement,details such as the ... The mass-front velocities of granular flows results from the joint action of particle size gradations and the underlying surfaces.However,because of the complexity of friction during flow movement,details such as the slope-toe impedance effects and momentum-transfer mechanisms have not been completely explained by theoretical analyses,numerical simulations,or field investigations.To study the mass-front velocity of dry granular flows influenced by the angle of the slope to the runout plane and particle size gradations we conducted model experiments that recorded the motion of rapid and long-runout rockslides or avalanches.Flume tests were conducted using slope angles of 25°,35°,45°,and 55° and three particle size gradations.The resulting mass-front motions consisted of three stages:acceleration,velocity maintenance,and deceleration.The existing methods of velocity prediction could not explain the slowing effect of the slope toe or the momentum-transfer steady velocity stage.When the slope angle increased from 25° to 55°,the mass-front velocities dropped significantly to between 44.4% and59.6% of the peak velocities and energy lossesincreased from 69.1% to 83.7% of the initial,respectively.The velocity maintenance stages occurred after the slope-toe and mass-front velocity fluctuations.During this stage,travel distances increased as the angles increased,but the average velocity was greatest at 45°.At a slope angle of 45°,as the median particle size increased,energy loss around the slope toe decreased,the efficiency of momentum transfer increased,and the distance of the velocity maintenance stage increased.We presented an improved average velocity formula for granular flow and a geometrical model of the energy along the flow line. 展开更多
关键词 Granular flow Angle of slope Runout plane Particle size gradation Mass-front velocity Energy-profile
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部