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1)  clod plasma jet
冷等离子体炬
2)  high frequency cold plasma jet
高频冷等离子体炬
1.
The Ni/γ-Al2O3 catalyst was reduced by high frequency cold plasma jet at atmospheric pressure.
采用大气压高频冷等离子体炬,对用于甲烷和CO2重整反应的Ni/γ-Al2O3催化剂进行还原。
3)  plasma torch
等离子体炬
1.
Study of the characteristic of D.C.arc plasma torch;
直流电弧等离子体炬的特性研究
2.
Numerical study of supersonic plasma torch;
超音速等离子体炬的数值模拟
3.
Numerical simulation results are presented in this paper concerning the heat transfer and fluid flow within the supersonic plasma jet, which is produced by the converging diverging plasma torch.
基于可压缩的全Naiver Stokes方程 ,利用PHOENICS程序对由会聚 辐射阳极形状等离子体炬产生的超声速等离子体射流进行了数值模拟 。
4)  microwave plasma torch
等离子体炬
1.
A new method for determining trace-level copper ion was proposed based on flow-injection on-line preconcentration and microwave plasma torch atomic emission spectrometry.
基于流动注射-在线柱预浓集-微波等离子体炬原子发射光谱,对在线浓集测定流路和各种测试条件进行优选,建立了一种测定痕量铜的新方法。
5)  Microwave plasma torch
微波等离子体炬
1.
The Effects of Some Concomitant Elements on Electrothermal Vaporation Microwave Plasma Torch Atomic Emission Spectrometry (MPT AES);
电热蒸发进样微波等离子体炬原子发射光谱法中共存元素的影响
2.
Microwave plasma torch atomic emission spectrometry(MPT-AES) was used to determine the content of calcium and zinc in kelp after being digested.
分别使用常规消解方法与微波消解方法处理海带样品,采用微波等离子体炬原子发射光谱法(MPT-AES)测定海带中钙和锌的含量。
3.
Using microwave plasma torch(MPT)as excitation light source, argon as support gas, the sample solution was introduced into a pneumatic atomizer system, and the method of determining copper, chromium, manganese and aluminum in hydrogenation catalyst by microwave plasma torch atomic emission spectrometry (MPT-AES) was studied.
用微波等离子体炬(MPT)为激发光源,氩气为等离子体工作气体,用气动雾化进样,研究了微波等离子体炬原子发射光谱法(MPT-AES)测定加氢催化剂中的Cu、Cr、Mn、Al四种金属元素的方法。
6)  axially viewed plasma
端视等离子体炬
补充资料:电感耦合等离子体焰炬
分子式:
分子量:
CAS号:

性质:一种利用高频感应电流产生的类似火焰的原子发射光谱的激发光源。试样溶液经喷雾器雾化成气溶胶,冷却除溶剂后,溶质以干的气溶胶进入等离子体焰炬,在9000~10000开的高温下激发并发射出特征谱线。这种光源的特点是激发温度高,因此离子线的强度大;原子化的温度高,谱线强度大,化学干扰少,基体效应小;稳定性好;由于在惰性气体中激发,光谱背景小。

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