1) uniform stream
均匀流,匀流
3) uniform flux
均匀流量
1.
The productivity formula of horizontal well, which is based on the assumption of uniform flux as well as considering the branch horizontal well to be a vertical fracture, has been deduced by using the complex function theory when the number of branch is 1 or 2 respectively.
将分枝水平井视为垂直裂缝 ,在均匀流量假设下 ,利用复变函数理论推导出了当分枝数分别为 1和 2时的分枝水平井产能公式。
4) homogeneous fluid
均匀流体
1.
Synthetic fluid inclusions were studied in order to discuss formational mechanisms of homogeneous fluid and boiling fluid in detail.
p-t轨迹在曲线上部的流体为均匀流体,反之则为沸腾流体。
5) non-uniform flow
非均匀流
1.
Turbulence characteristics of non-uniform flow in a smooth open channel;
光滑壁面明渠非均匀流水力特性
2.
Based on experimental data measured with a Preston tube,bed shear stresses in uniform and non-uniform flows in open channels were compared under different hydraulic conditions.
在分析Preston管量测试验资料的基础上,对比了明渠均匀流和非均匀流的底壁切应力在不同水力条件下的规律,指出断面中心处底壁切应力、平均底壁切应力和切应力的分布等几个切应力公式在均匀流时适用,在非均匀流时不全适用。
3.
Results of the flume experiments on non-uniform flow over a rough bed show that the vertical distribution of velocity on a channel section needs to be divided into two regions with different log velocity distribution equations.
粗糙床面非均匀流的水槽试验表明,非均匀流断面的垂线流速分布需用两个对数公式分别描述;粗糙床面的流速分布较光滑床面不均匀;非均匀流的紊流度分布随相对水深的增大而趋于均匀;粗糙床面非均匀流糙率系数的变化规律与光滑床面近似。
6) uniform flow
均匀流
1.
Formula on direct calculation of water depth of uniform flow in rectangular open channel;
矩形断面明渠均匀流水力计算的直接计算公式
2.
Then the author uses the result to design the arrangement of line sources and sinks in conjunction with a uniform flow.
通过线源与线汇及均匀流动的叠加,得出了轴对称物体三维流场的近似解。
3.
Based on the concept of type of flow and experimental results,this paper shows that the roughness coefficient decreases with increasing of the depth of flow in an uniform flow,and increases with increasing of the depth of flow and energy gradient in non-uniform flow with M1water surface profile performed.
根据明渠水流流动型态的概念,通过对实验资料的分析,得到均匀流时糙率系数随水深增加而减小,形成M1型水面线的非均匀流时糙率系数随水深、水力坡度的增大而增大的规律。
补充资料:《管子》论水流
《管子》论水流
guanzi Iun shuillu《管子》论水流《管子》一书中的某些对水的性质、分布及其运动规律的较系统地叙述。书中认为,水是自然界万物生长发育的一种基本物质,“集于天地而藏于万物”。对水的物理和化学性质作了直观的描述,并介绍了水(包括地面水和地下水)和农业以至社会生活的密切关系。它特别强调地指出,水可以为利也可以为害,认为兴修水利,消除水害,是关系国计民生的大事,应该作为治理国家的大政方针。 《管子》对地表径流及其规律有更多的叙述,它将地表水按其大小和相互间的关系分为径水(干流)、枝水(分支)、谷水、川水(支流及较小河流)、渊水等五类,并认为这些地表水源可以为人们导引和利用。《管子·度地》还列举了地表径流的若干现象,指出渠道输水由高处向低处,如坡降过陡,则冲刷严重:过缓也不能LE常输送,应设计适当的坡度,才能达到正常输水的目的。并提出了据认为是一般渠道坡降的简单估算办法。有人还认为《管子·度地》中有一段文字描述的是渠道和渠系建筑物的水流形态。例如,水流过涵管的形态和进口端必须高于出口端的规律;平面弯道水流急转弯时可能出现的破坏现象;渠道陡坡后面的水跃和环流,以及由此引起的冲刷和可能造成的事故等等。《管子》对水流若干现象和规律的描述,代表了中国早期水力学的水平。(周魁一)
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