1) impeller
[英][im'pelə] [美][ɪm'pɛlɚ]
搅拌桨
1.
Three-dimensional flow numerical simulation of double turbine impellers;
双层涡轮搅拌桨三维流场数值模拟
2.
Calculation of stress of an impeller acted by liquid in a stirred tank;
搅拌槽内流体作用力下搅拌桨叶的应力计算
3.
The power characteristic of three-lay impellers in gas-liquid stirred tank;
三层组合式气液搅拌桨的功率特性
2) agitator
[英]['ædʒɪteɪtə(r)] [美]['ædʒə'tetɚ]
搅拌桨
1.
The cause of agitators breaking in reactor and curing tank and its countermeasure;
反应槽、熟化槽搅拌桨断裂原因及处理措施
2.
A brief description is given of the operational situation in recent years to agitator in extraction tank.
简述该公司近几年来萃取槽(1200/3900×4550mm)搅拌桨的运行状况,分析搅拌轴和桨叶脱落、断裂以及槽底防腐层损坏等故障的原因,并提出相应地解决办法和防范措施。
3.
In the research, mass transfer coefficients (KLa) of various type of agitators in a vertical cylindrical vessel were measured by pure oxygen absorption method, aad the power consumption were also determined.
所以,双层桨作为聚四氟乙烯生产的搅拌桨是最佳的。
3) propeller
[英][prə'pelə(r)] [美][prə'pɛlɚ]
搅拌桨
1.
The structure of industrial crystallier propellerhas been analyzed.
对结晶器搅拌桨进行了结构分析,以结晶器内各点流速均匀分布为原则,基于流体力学利用Fluent软件对搅拌桨螺距比、盘面比、和筒径比等进行了参数化求解,寻找结构参数对流场的影响规律,从而确定其最优值。
2.
Describing the use of the finite element analysis method,analysing the processing modal of vibration and distortion of Propeller,could determine the weak parts of the blades,and according to this,designing the rational support fixture.
阐述利用有限元分析的方法,分析加工时搅拌桨的振动模态和变形,可以确定桨叶的薄弱部位,以此为依据设计合理的支撑夹具,在铣削力不变的前提下,保证桨叶的加工精度和加工效率。
3.
The traditional design method of propellers is calculating the surface of propeller from table of offsets, which is low-precision and time-consuming.
搅拌桨是搅拌釜式结晶器的重要部件,搅拌釜内饱和溶液的整体流动形式与搅拌桨的叶剖面形函数和桨的结构参数密切相关。
4) stirrer
[英]['stɜ:rə(r)] [美]['stɝɚ]
搅拌桨
1.
Calculation of stirrer shaft power of a WPA reactor;
湿法磷酸萃取槽搅拌桨轴功率的计算方法
2.
A stirrer with jet function has the advantages of higher efficiency and lower energy consumption in mixing.
穿流式搅拌桨桨叶上的开孔所引起的射流对于提高搅拌效率、降低搅拌能耗起着重要的作用。
5) pitched-blade turbine
PBT搅拌桨
6) Stirred bottom oars
搅拌底桨
补充资料:桨式搅拌器
分子式:
CAS号:
性质: 将一般或数段长方形桨叶安装于轴上的搅拌器。一般桨叶宽度约为长度的5%~10%。此种搅拌器结构简单,易于制造。桨叶形状有多种,均以较低转速转动。该种搅拌器适用于一般的液体搅拌,尤其适用于黏度高、流动性差的液体。缩短桨叶与槽的间距,可以提高搅拌效果。
CAS号:
性质: 将一般或数段长方形桨叶安装于轴上的搅拌器。一般桨叶宽度约为长度的5%~10%。此种搅拌器结构简单,易于制造。桨叶形状有多种,均以较低转速转动。该种搅拌器适用于一般的液体搅拌,尤其适用于黏度高、流动性差的液体。缩短桨叶与槽的间距,可以提高搅拌效果。
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