1) stirring adsorption tank
搅拌吸附槽
1.
In this paper,the down-flow adsorption tank,self-aerating adsorption tank and high-speed stirring adsorption tank have been used experimentally in gold extraction from heap leached tailings by Coal Gold Agglomeration Process.
下流式吸附槽、又充气吸附槽以及高速搅拌吸附槽在煤金团聚(CoalGoldAgglomeration简称CGA)工艺从堆浸尾渣中提金的试验结果比较表明:相同试验条件下,下流式吸附槽达到相同的金回收率,搅拌速度较高速搅拌吸附槽及自充气吸附槽明显降低,设备效率明显提高,且放大性能良好。
2) stir bar sorptive extraction
搅拌棒吸附萃取
1.
Stir bar sorptive extraction(SBSE), which was originally developed at the end of 1990s, is a kind of novel and solvent-free sample preparation technology with high sensitivity and reproducibility.
搅拌棒吸附萃取是九十年代末发展起来的一种新型的样品前处理技术,具有灵敏度高、重现性好、不使用有机溶剂等优点。
2.
A novel method for the analysis of chemical components in tobacco flavors was established using stir bar sorptive extraction(SBSE) and thermal desorption coupled with gas chromatography-mass spectrometry(GC-MS).
应用搅拌棒吸附萃取法(SBSE)提取烟用香料的化学成分,并利用热脱附(TD)和色谱-质谱联用(GC-MS)进行分析。
3.
Determination of esters in wine using stir bar sorptive extraction-thermal desorption and gas chromatography-mass spectrometry;
建立使用搅拌棒吸附萃取(SBSE)和热脱附系统(TDs)并结合气相色谱-质谱联用(GC-MS)测定白酒中酯类成分的分析方法。
3) stir bar sorptive extraction(SBSE)
固相吸附搅拌棒
4) SBSE
搅拌吸附萃取
1.
) were extracted and analyzed by HSSE-GCMS and SBSE-GC-MS techniques.
为此,作者利用顶空吸附萃取-气相色谱-质谱〔HSSE(Head space sorptive extraction)-GC-MS〕和搅拌吸附萃取-气相色谱-质谱〔SBSE(Stire bar sorptiveextraction)-GC-MS〕联用技术[4]对yatay椰子果实和果汁的芳香成分进行了研究,以期为yatay椰子这一植物资源的充分利用提供科学依据。
5) 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
6) 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。
补充资料:机械搅拌浸取槽
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