1) stream surface
流面
1.
A theoretical study on stream function equations of revolving S 1 stream surface in centrifugal pump impellers;
离心泵叶轮回转S_1流面流函数方程的理论研究
2.
Streamline and streamtubes, streamribbon and stream surfaces are often used during the realization of visualization of flow fields, however, the realization of traditional visualization methods is mostly too complicated.
流线、流管、流带及流面是流场可视化中常用的表现方法,而传统的流场可视化模型及实现方法大多较为复杂。
3.
This paper introduces the construction algorithms of the stream surface and stream ribbon based on connecting the seed points of two streamlines.
介绍了基于流线连接的流面生成方法,针对发散场中流线间距过大的问题,提出基于旋度计算的流面生成方法,通过流线法向量连线生成具有较好视觉效果的流带和流面,最后选取CDC风场数据对算法进行检验。
2) surface current
面流
1.
This paper analyzes the influence of bucket angel to the characteristic of surface current energy dissipation, which is base on the experiment result of surface current energy dissipation of release sluice in Mohu water power station.
在综合莫湖水电站泄洪闸面流消能试验成果的基础上,分析泄洪闸低溢流堰鼻坎挑角对面流消能特性的影响。
2.
The results demonstrate that Floods of once a hundred years and 1989 can keep surface current fluid pattern without severe scour; however, flood Of once five hundred years is with bed current, de.
天桥水电站采用面流消能,原设计洪水标准为100A一遇。
3) flow surface
流面,过流面
4) face to face contact
面对面交流
1.
Information & communication technology is changing the cost-revenue pattern of the service industry s location choice,which makes the service industry s enterprises change their location,on the other hand,the importance of face to face contact in and out of the business restricts this location adjustment.
信息通信技术改变了服务企业地理布局的成本收益格局,从而驱使服务企业做出布局调整,而面对面交流在企业内外交流中的重要性限制了这种布局调整。
5) near surface flow
表面流近面流
6) counterflow
['kauntəfləu]
迎面流;倒流
补充资料:面流消能
利用泄水建筑物末端的跌坎或戽斗,将下泄急流的主流挑至水面,通过主流在表面扩散及底部旋滚和表面旋滚以消除余能的消能方式(见图)。面流消能分跌坎面流消能和戽斗面流消能两类。戽斗面流消能是水流在戽斗内形成水跃后,再在戽斗后形成面流,是兼有底流、面流特点的混合型消能方式。面流消能适用于中、低水头,下游尾水较深,水位变幅不大及河岸稳定、抗冲能力强的情况。采用面流消能,由于主流位于水流表面,有利于漂木、排冰;但水面波动较大且向下游延伸较远,对岸坡稳定、电站运行和下游航运条件均有不利影响。面流流态复杂多变,对下游尾水条件要求高,保证能得到纯面流的水深范围较小。面流流态与鼻坎布置形式、水头、单宽流量、下游水深及冲淤河床形态等因素有关。若鼻坎形式、水头、泄量已定,随下游水深由小到大,面流将依次出现自由面流、自由混合面流、淹没混合面流、淹没面流等流态。就对河床冲刷而言,淹没面流及自由面流较轻,自由混合面流及淹没混合面流严重些。当有漂木、排冰等要求时,流态应控制在自由面流;否则,流态视河床抗冲能力可适当放宽。实用流态通常以应用自由面流及自由混合面流居多,淹没混合面流或淹没面流有时也可应用。目前面流流态的水力计算已有很多经验公式,但还不够成熟,一般都要通过水力模型试验验证,以选定合适的设计方案。中国西津、青铜峡、富春江、龚咀水电站的泄洪消能方式,均采用面流消能,其中龚咀溢流坝泄洪单宽流量达242m3/(s·m)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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