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1)  mid-flow
中间流
1.
The steady state between the border flow and the mid-flow of the micro-fluid in the valveless micro-pump was breaked off by the periodical disturbance that lead the velocity difference.
提出数字化无阀微泵内的微流体概念,该微流体受外加周期性扰动,其边界流和中间流间产生速度差异,由于粘性力、惯性力交替作用,使微流体运动,中间流克服表面张力的作用得以喷射出去,实现数字化无阀微泵泵送。
2)  intermediate distributary
中间分流
1.
The test showed that the intermediate distributary can significantly improve the effect of subsurface infiltration system on removal of total nitrogen, with TN removal rate increased from 55% (without taking distributary measures) to 65%, and it has no great influence on the removal of COD and total phosphorus.
 构建了两套以粘性红壤土为填充介质的地下渗滤中试系统(水力负荷为4cm/d),应用其处理村镇生活污水的试验结果表明,中间分流能够明显提高地下渗滤系统对总氮的去除效果,可使总氮去除率由约55%(未采取分流措施)提高到约65%,且未对COD和总磷的去除效果产生明显影响。
3)  middle streamline
中间流线
1.
A new way of drawing middle streamline;
一种新的中间流线绘型方法
4)  intermediate reflux
中间回流
5)  swirling flow tundish
漩流中间包
1.
Application of PIV in study of swirling flow tundish;
PIV测试技术在漩流中间包流场研究中的应用
2.
Numerical simulation of flow field in a swirling flow tundish
漩流中间包流场的数值模拟
3.
The flow in swirling flow tundish and swirling chamber is simulated in according to similitude theory.
根据相似原理,模拟漩流中间包及漩流室内钢液的流动,研究了不同漩流室直径、高度对夹杂物在漩流室内向心聚集上浮的影响,验证漩流室对夹杂物的去除效果。
6)  multi-strand tundish
多流中间包
1.
Mathematical simulation of steel flow in multi-strand tundish with gas curtain;
气幕挡墙技术优化多流中间包数模研究
2.
However, no well-known model to characterize the melt flow was presented for multi-strand tundish at present.
分析中间包内钢液的停留时间分布(RTD)曲线,从而定量描述其内流动特性的组合模型已被应用数十年,但对于多流中间包,目前还没有公认的流动特性分析模型。
3.
The concept of combined residence time distribution(RTD)curve for the multi-strand tundish was presented,and applied to the modified combined model,and the analysis method of the combined RTD curve for the fluid in multi-strand tundish was formed.
提出了多流中间包内流体流动的联合RTD曲线分析方法,并从整体上对多流中间包平均停留时间作出新的解释。
补充资料:135kA中间下料预焙阳极铝电解槽(抚顺铝厂)


135kA中间下料预焙阳极铝电解槽(抚顺铝厂)


赢 135kA中间下料预焙阳极铝电解槽(抚顺铝厂)
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