1)ionic impurity离子杂质
英文短句/例句
1.The Release Mechanism of Anionic Trash during Alkaline Pulping Process of ONPONP碎浆过程中阴离子杂质的溶出机理
2.Determination of Halide Impurities in Ionic Liquids by Ion Chromatography with Direct Conductivity Detection离子液体中卤素离子杂质的离子色谱-直接电导检测法分析
3.Influence of impurity and mass transfer of ionic cluster on ionic membrane离子簇的传质及杂质对离子膜的影响
4.Study of Quantitative Analysis of Vanadium in SiC by Secondary Ion Mass Spectroscopy;二次离子质谱分析碳化硅中钒杂质含量的研究
5.Reaction and Synthesis of Heterocycles or Heteroatom Compounds in Ionic Liquids;离子液体介质中杂环、杂原子化合物的反应及合成研究
6.Research of Plasma Induced and Impurity Free Vacancy Quantum Well Intermixing for Photonic Integration光集成中等离子诱导与无杂质空位量子阱混杂技术的研究
7.Determination of phosethyl-Al and the impurities by Ion-exchange chromatography离子色谱法同时测定三(乙基膦酸)铝原药纯度及各杂质离子的含量
8.FLUORESCENCE OF RARE EARTH IONS IN SYNTHETIC JADEITE GEM稀土离子掺杂对人工翡翠宝石荧光性质的影响
9.Study in the Behavior of Implanted Ions in Oxide Crystals;离子注入杂质在氧化物晶体中的行为研究
10.Preparation and characterization of ion exchange derived Co,Cr and Al doped LiMnO_2Co、Cr、Al掺杂LiMnO_2的离子交换法制备及其性质研究
11.Determination Impurities in Glyphosate TC by Ion Chromatography离子色谱法测定草甘膦原药中的杂质成分
12.Study on the Preparation and Electrochemical Property of Cu~(2+) Ion Doped TodorokiteCu~(2+)离子掺杂钙锰矿的合成及电化学性质研究
13.Effects of Interfering Ions on the Performance of Trivalent Chromium Blue-White Passivation Bath杂质离子对三价铬蓝白钝化液性能的影响
14.Research on the removal of metal impurities from Wet-Process Phosphoric Acid with duolite离子交换树脂脱除湿法磷酸中金属杂质的研究
15.Determination of Metal Impurity Elements in Lithium Electrolyte by ICP-AESICP-AES法测定锂离子电池电解液中金属杂质元素
16.Study on the impact of impurity ions on SPE membrane-electrode assembly杂质离子对SPE膜-电极组件性能影响研究
17.Mechanism of decreasing impurity content of Ta powder by induction plasma technology等离子体技术对钽粉杂质含量降低作用机制
18.Determination of impurities Ca,Mg in cathode material of LiMn_2O_4 for Li-ion battery by FAASFAAS法测定锂离子电池正极材料LiMn_2O_4中杂质Ca、Mg
相关短句/例句
impurity ions杂质离子
1.Effect of impurity ions on microstructure of copper deposition;杂质离子对铜沉积微观结构的影响
2.Effects of impurity ions on the performance of Ni/MH battery;杂质离子对MH/Ni电池性能的影响
3.Study on the impact of impurity ions on SPE membrane-electrode assembly杂质离子对SPE膜-电极组件性能影响研究
3)impure ions杂质离子
1.Influence of impure ions on performance of solid polymer electrolyte water electrolyser;杂质离子对固体聚合物电解质水电解槽性能的影响
2.The influence of impure ions to the quality of cathodic electrophoresis coatings, prevention and cure thereof are analyzed.分析了杂质离子对阴极电泳涂装的影响及其防治措施。
4)impurity ion杂质离子
1.It was introduced that the sample pretreatment methods were used when the micro impurity ions in the inorganic compounds, organic compounds and polymer materials etc.介绍离子色谱法测定无机化合物、有机化合物、高分子材料等样品中微量杂质离子所采用的样品前处理方法,包括化学反应基体消除法、萃取法、化学提取法、膜处理法以及分解处理法
2.The effects of individual procedure (including Zn plating,bright dipping,passivating,rinsing and drying) and impurity ions (such as Zn2+ and Fe3+) on the performance of passivation coating were discussed.讨论了各工序(包括镀锌、出光、钝化、水洗和干燥)及杂质离子(包括Zn2+和Fe3+)对钝化膜性能的影响,介绍了工艺控制及杂质离子的消除。
5)anionic trash阴离子杂质
1.In this paper, the research situation home and abroad, the resources and the detrimental effects of the anionic trash released during waste paper pulping process as well as its controlling methods were elucidated systematically and, in detail, the analyzing technology of the anionic trash were also introduced.系统论述了目前关于废纸制浆过程中干扰物质——阴离子杂质(anionic trash)的来源、危害和控制,以及目前国内外在这方面的研究现状,并详细介绍了阴离子杂质的分析技术。
2.It was found that the process of bleaching pulp released a large number of anionic trashes not only reduce the brightness and strength properties.脱墨浆的过氧化物漂白中,释放出大量的阴离子杂质,通过阴离子杂质对纸浆性能的影响研究,结果表明,溶出的大量阴离子杂质不但降低了纸浆白度与强度性能,阳离子助剂也有影响。
3.In this article the factors influencing the anionic trash dissolving during the pulping of ONP were studied in order to optimize the pulping process to minimize the detrimental effects of the anionic trash.废纸制浆过程中会释放出较多的溶解与胶体物质,即阴离子杂质,其中有些溶解性物质由于碱性水解和氧化降解而带有负电荷,与抄纸过程中的阳离子助剂作用而恶化抄造系统。
6)canon impurities阳离子杂质
延伸阅读
电去离子技术和反渗透-电去离子高纯水设备技术概况1、采用自行研制的暗道式流道淡室隔板、国产的异相离子交换膜和离子交换树脂等材料组装的电去离子(EDI)膜堆,结合超滤、反渗透(RO)等膜分离技术成功地用于纯水、高纯水制备,结构紧凑,工艺合理,操作简便,系统设计具有创新性。2、以RO-EDI为核心技术设计制造的1m3/h高纯水设备及小型高纯水装置工艺先进,EDI膜堆产水电阻率达到16~17MΩcm,钾、钠、锌、镍、铜、全硅、氯、硝酸根、磷酸根、硫酸根、总有机炭及细菌数等项指标达到电子级水I级标准,微粒数达到Ⅱ级标准;医药、生物技术等行业用的RO-EDI装置产水水质达到中国药典注射用水标准。3、实验室试验及使用单位应用表明,研制的EDI膜堆可以连续稳定运行,生产纯水、高纯水。EDI膜堆污染后,可以通过清洗恢复性能。4、研制的EDI膜堆及RO-EDI高纯水设备已经具备了产业化条件,在国内处于领先地位,并在产水水质、水耗、电耗等方面达到美国、加拿大同类品的先进水平。5、EDI属清洁生产技术,可广泛用于电子、电力、医药、生物技术等行业生产纯水、高纯水,具有重大的社会、经济效益。技术原理一、基本原理EDI是国际上九十年代才逐步成熟的纯水、高纯水生产技术、是纯水生产领域一项具有革命性的技术突破。EDI为电渗析与离子交换有机结合形成的新型膜分离技术,在外加电场的作用下,使离子交换、离子迁移、树脂电再生三个过程相伴发生,相互促进。它既保留下电渗析可连续脱盐及离子交换树脂可深度脱盐的优点,又克服了电渗析浓差极化所造成的不良影响及离子交换树脂需用酸碱再生的麻烦和造成的环境污染,可以使制水过程连续长期进行,并能获得高质量的纯水,整个过程相当于连续获得再生的混床离子交换。二、技术关键1、EDI淡室隔板的设计;2、填充材料的选择;3、EDI膜堆的组装;4、EDI膜堆水路系统的安排;5、EDI膜堆的操作参数。适用范围医药、电子、电力、生物技术和科学研究
