1) stirred tank
搅拌槽
1.
A new method for determining mixing time in stirred tanks;
一种计算搅拌槽混合时间的新方法
2.
Large eddy simulation of turbulent flow in a stirred tank;
大涡模拟搅拌槽中的液相流动
3.
Particle image velocimetry (PIV) study of the flow structure in a stirred tank;
搅拌槽内流动结构的粒子图像测速技术研究
2) agitated tank
搅拌槽
1.
Study on the unsteady temperature distributions in an agitated tank;
搅拌槽中非稳态温度场分布的研究
2.
Liquid-liquid dispersion properties in a multi-blade agitated tank;
多层桨搅拌槽内的液-液分散特性
3.
The dispersion and phase separation of the triple-liquid phase system in an agitated tank were recorded with a CCD camera system.
以包含双油相和单水相的液-液-液三相体系为对象,利用编程控制的CCD照相系统,考察了搅拌槽内不同操作条件下液-液-液三相体系的相分散及分相情况。
3) agitated vessel
搅拌槽
1.
The properties of gas-liquid dispersion and mixing in the standard aerated agitated vessel with seven types of impellers were studied and compared , including the critical dispersion impeller speed , dispersion regime ,power consumption , gas holdup , bubble residence time , discharge flow number and discharge efficiency .
在通气式搅拌槽内研究了直叶圆盘涡轮、直叶桨式涡轮、 45°叶圆盘涡轮、45°折叶桨式涡轮、凹弧叶圆盘涡轮、锥形涡轮和布鲁马金式搅拌器的临界分散转速、分散状态、搅拌功率、气含率、气泡停留时间、排量准数和输出效率,并获得了适用于上述各类搅拌器的临界分散转速、搅拌功率、气含率和气泡停留时间关联式。
2.
The gas-liquid flow pattern, critical dispersion impeller speed, power consumption,gas hold-up and bubble residence time were studied in a baffle-gassed agitated vessel with multiple impellers.
研究了挡板进气多级搅拌槽内的气-液分散流型、临界分散转速、搅拌功率、气含率和气泡停留时间。
3.
The characteristics of the fluid mechanics of some impellers were reviewed and effects of impellers, operating conditions and baffle on flow patterns were analysed in agitated vessel.
分析了各种搅拌器类型、不同的操作条件和挡板安装方式及放大过程等因素对搅拌槽内流体流型的影响。
4) agitating tank
搅拌槽
1.
Study on extraction process of tea-polyphenols and scale up law of agitating tank;
茶多酚乙醇水溶液提取过程及搅拌槽放大规律
2.
Mathematical simulation of flow and mixing characteristic of shear thinning liquid in agitating tank;
剪切变稀型流体在搅拌槽中流动与混合特性数值模拟
5) agitator bath;agitator tank
搅拌(酸)槽
6) gas-liquid stirred tank
气-液搅拌槽
补充资料:搅拌槽
分子式:
CAS号:
性质:即机械搅拌浸取槽的简称,分为单桨搅拌和多桨搅拌两种。槽体为圆柱形,槽底为圆球形或平底。中央设有循环筒,搅拌器装在循环筒下部。槽体通常用碳钢内衬耐酸砖制成。搅拌器有桨式、螺旋桨式、锚式和滑轮式等形式,最常用螺旋桨式。搅拌桨叶轮一般由碳钢衬胶制作。通常将螺旋桨搅拌器的直径取为槽体直径的0.25~0.30。
CAS号:
性质:即机械搅拌浸取槽的简称,分为单桨搅拌和多桨搅拌两种。槽体为圆柱形,槽底为圆球形或平底。中央设有循环筒,搅拌器装在循环筒下部。槽体通常用碳钢内衬耐酸砖制成。搅拌器有桨式、螺旋桨式、锚式和滑轮式等形式,最常用螺旋桨式。搅拌桨叶轮一般由碳钢衬胶制作。通常将螺旋桨搅拌器的直径取为槽体直径的0.25~0.30。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条