1) water vapor gas
水蒸气气相
2) gas evaporation
气相蒸发
1.
In this paper the two main preparation technology, gas evaporation process and chemical reduction reaction process which can prepare ultrafine metallic powders in industrial scale are reviewed, several key issues on these preparation teehnologies are deeply discussed, and their dev(?) ment directions are forecasted.
评述了能工业规模制备金属超微粉末的气相蒸发法制备技术和化学还原反应法制备技术,重点讨论了制备工艺中的几个关键问题,并对该技术的发展方向作了展望。
2.
Parameters of gas evaporation method to prepare the nano-particles of amorphous Ni-Ti alloy have been investigated.
采用气相蒸发法制备纳米量级的Ni-Ti非晶合金粒子,研究了各种因素对Ni-Ti纳米非晶合金粒子形成的影响,并用透射电子显微镜,高分辨电子显微镜,X射线衍射仪和能谱等多种手段对纳米非晶合金粒子进行了表征。
3) Vapor-phase method
蒸气相法
4) air-steam
空气-水蒸气
1.
Modeling and simulation of biomass air-steam gasification in a fluidized bed;
生物质流化床空气-水蒸气气化模型研究
5) steam gasification
水蒸气气化
1.
A novel hydrogen production in which Ca(OH)_2 is adopted as a CO_2 sorbent to increase H_2 yield in the process of hydrogen production from woody biomass by steam gasification was proposed.
提出一种新型的生物质水蒸气气化制氢方法。
2.
The characteristics of biomass oxygen rich-steam gasification in a fluidized bed for hydrogen rich gas production were tested.
以一个鼓泡流化床为反应器,对生物质富氧—水蒸气气化制取富氢燃气的特性进行了一系列的实验研究。
6) atmospheric water vapour
大气水蒸气
补充资料:蒸气相干扰
分子式:
CAS号:
性质:蒸气相干扰包括待测物质在气相中的解离干扰、电离干扰和激发干扰。待测元素在火焰原子化器中,由于解离、电离、激发的变化所引起对测定结果的影响。
CAS号:
性质:蒸气相干扰包括待测物质在气相中的解离干扰、电离干扰和激发干扰。待测元素在火焰原子化器中,由于解离、电离、激发的变化所引起对测定结果的影响。
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