1) anucleation
核凝
1.
Based on anucleation principle,making use of surplus heat to set up contracting sector,S model passage and water level conditioner etc.
利用核凝原理、窑 (锅 )炉余热 ,在装置内设置收缩段、S通道、水位调节器等 ,实现水气自激、烟尘核凝凝聚、吸收脱硫 ,达到消烟除尘脱硫的目的 ,经测试 ,本装置可使烟气黑度 <1度 ,除尘效率 >98% ,脱硫效率 >85 %。
2) re-nucleation
凝核
3) condensation nucleus
凝结核,凝聚核
4) CCN
云凝结核
1.
Using a DMT(Droplet Measurement Technologies) continuous flow streamwise thermal gradient cloud condensation nuclei(CCN) counter mounted on a Cheyenne ⅢA aircraft,aircraft measurements of CCN in about 20 flights over North China were conducted in the autumn of 2005 and spring of 2006.
利用连续气流纵向热梯度云凝结核仪对中国华北地区空中和地面的云凝结核(CCN)进行了观测研究。
2.
Based on the cloud scheme of Chinese Academy of Meteorological Sciences(CAMS), awarm cloud model with prognostic variables of concentrations of aerosols,CCN and clouddrops was developed.
在中国气象科学研究院云模式的基础上,增加了气溶胶、云凝结核和云滴数浓度的预报量和微物理过程,改进了该模式的暖云物理方案。
3.
The distribution of aerosol,CCN concentration generally decreases with the height.
边界层是气溶胶和云凝结核(CCN)最密集处,云区为1 176~2 465 m,云底云滴数浓度低,蒸发释放核膜态粒子使得气溶胶进入云层后数浓度减少幅度较小,另云滴对CCN有消耗作用。
5) cloud condensation nuclei
云凝结核
1.
The results show that dust particles raised during duststorms increase the amount of large and giant cloud condensation nuclei in the atmosphere,lead to more large droplets activated at the early stage of cl.
结果表明:扬沙和沙尘暴天气增加大气中大核和巨核的浓度,促进云中水汽的活化,使降水提前出现,暖云和冷云降水量均大幅增加,但可忽略巨核增加对云光学厚度和反照率的作用;当矿物沙尘粒子同时作为有效的云凝结核和冰核参与云的发展时,冰核浓度增加使水成物有效半径减小,抑制了暖云和冷云降水,云内存留的大量冰晶增强云的光学厚度和反照率。
2.
The concentration of cloud condensation nuclei is determined from surface and aircraft measurements at Mt.
利用热扩散型云凝结核计数器在贺兰山地区进行地面和空中云凝结核 ( CCN)观测。
6) sperm nuclei decondensation
精核解凝
1.
cDNA cloning of Ran gene and analyses on its expression characterization and role in sperm nuclei decondensation in vitro in gibel carp,Carassius auratus gibelio;
银鲫Ran基因的cDNA克隆、表达特征及其在精核解凝中的作用
补充资料:Sds-聚丙烯酰胺凝胶电泳凝胶电泳
sds-聚丙烯酰胺凝胶电泳(sds-page,sodium dodecyl sulfate-polyacrylamide gel electrohoresis)
在有去污剂十二烷基硫酸钠存在下的聚丙烯酰胺凝胶电泳。sds-page只是按照分子大小分离的,而不是根据分子所带的电荷和大小分离的。
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