1) exhaust solid
废气中的固体微粒
2) gas-borne particles
悬浮气体中的微粒 GBP
3) pyrotechnically generating aerosols
固体微粒气溶胶
4) Solid particle
固体微粒
1.
The composition of solid particle and influence on interfacial tension between organic phase and water phase were investigated at different pH by using XRD and interfacial tension instrument.
为查清紫金山铜矿溶剂萃取铜过程界面乳化的原因,采用X射线衍射和界面张力等现代分析检测手段,考察了铜溶剂萃取过程中固体微粒的组成和来源以及不同pH值条件下不同种类的固体微粒对有机相-水相间界面张力的影响。
2.
The effects of solid particles on stability of interfacial emulsion in copper solvent extraction was studied.
对铜溶剂萃取时萃原液中固体微粒稳定界面乳化液的机理进行了研究。
3.
In order to investigate the influence of the solid particle on the zincous electrlbath's voltage and the quality and output of depositing zinc in zinc electrowinning,two different type of filters are introduced to carry out the filtration experiment of electrolysis mixture liquid.
指出悬浮在电解混合液中的固体微粒主要是钙和锶的不溶物、SiO2 及少量MnO2 。
5) solid particles
固体微粒
1.
For solid particles being the most deleterious matter in lubricating oils,the dielectrophoresis separation process system for removing the solid particles was established.
针对润滑油中危害最大物质之一的固体微粒,建立了润滑油介电动力学分离流态实验装置系统,研究了该方法主要工艺技术参数:电场强度和流速等。
2.
In order to avoid the formation of the third phase during the process of solvent extraction of copper,the composition of the solid particles in the third phase was examined by XRD as well as adsorption and degradation of the extractant caused by the solid particles were investigated by IR and GC-MS methods.
采用X射线衍射、傅立叶变换红外光谱、气-质联用色谱等分析检测手段研究了铜萃取过程中第三相固体微粒的组成、固体微粒对萃取剂的吸附和降解作用,寻求抑制铜萃取过程中第三相形成的方法。
6) Solid particulate aerosol fire suppressants agent
固体微粒气溶胶灭火剂
补充资料:晶体中的元激发(见固体中的元激发)
晶体中的元激发(见固体中的元激发)
elementary excitation in crystal
晶体中的元激发eleme讯ary excitation Incrvstal见固体中的元激发。
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