1)  trajectory analysis
液滴路径
2)  droplet
液滴
1.
Initial Rate Distribution of Droplet Flow on Ratating Stream Tray;
旋流塔板上液滴的初始流率分布
2.
Visual experimental study on droplet impacted onto horizontal solid surface;
液滴撞击水平固体表面的可视化实验研究
3)  drop
液滴
1.
Application of PIVT to study temperature and velocity field due to the thermocapillary motion of single drop;
应用PIVT技术测量单液滴热毛细迁移时的速度场和温度场
2.
A high resolution digital camera and image processing were used to investigate the process of drop formation in a normal CFB experimental system.
液液雾化过程是液液循环流化床的关键技术之一,在流化床常态实验装置上,采用快速摄像与图像处理相结合的方法,获得了实验流量范围内液滴形成过程的图像以及形成液滴的粒径信息,运用数学分布函数对液滴的粒径分布进行了研究。
4)  liquid drop
液滴
1.
Motion characteristics of liquid drops in water-washing flow field of oil-water separator;
油水分离器中水洗流场液滴运动特性分析
2.
The study of statistical model of mass liquid drop during metal spray forming process;
金属喷射成型过程大量液滴的统计模型研究
3.
A novel renewable liquid drop sensor was proposed for quantitative assay of hydrogen peroxide based on fluorescence enhancement of thiamine due to its oxidation in basic medium.
基于此基本原理,利用连续动态液滴荧光法测定溶液中的痕量过氧化氢。
5)  Liquid droplet
液滴
1.
Experimental investigation of dynamic evaporation characteristics of liquid droplet on heated surface;
加热板上蒸发液滴动态特性的实验
2.
Movement analysis on sprayed liquid droplets in vessel and its calculation;
喷雾液滴在容器气流中的运动分析与计算
3.
Based on the earlier work performed by other researchers the authors have derived a formula for the accurate calculation of the critical radius of a spherical liquid droplet under a supersaturation state.
在前人工作的基础上推导出了能够精确计算过饱和状态下临界液滴半径的计算公式,并且根据已有实验数据拟合出了能够精确预测液滴表面张力的计算公式。
6)  droplets
液滴
1.
Evaporation and settling characteristics of contaminated respiratory droplets;
人体呼出的污染液滴在空气中的蒸发和沉降特性
2.
Numerical study of gravity separation of droplets in gas-liquid separation space of scrubbing-cooling chamber;
洗涤冷却室气液分离空间内液滴重力分离数值研究
3.
The principle, mathematical models of the liquid droplets analysis technology based on fiber, capacitance image and spectrum droplet technology are reviewed and compared.
介绍了用于液滴分析的光纤液滴分析技术、电容液滴分析技术、图像液滴分析技术、光谱液滴分析技术的原理、数学模型等。
参考词条
补充资料:苄达赖氨酸滴眼液
药物名称:苄达赖氨酸滴眼液

英文名:Bendazac Lysine Eye Drops

汉语拼音:Bianda Laiansuan Diyanye

主要成分:

性状:无色的澄明液体.

药理作用:醛糖还原酶抑制剂,文献报告对晶状体醛糖还原酶(AR)有抑制作用,所以用BDZL滴眼液抑制眼睛中AR的活性,达到预防或治疗白内障的目的.

药代动力学:文献报告家兔静脉注射后,在眼组织和血浆中能测得原药及其代谢物∶5-羟苄达酸,其中虹膜浓度最高,其他依次为睫状体、视网膜、角膜、泪液、房水、玻璃体和晶状体.血浆房水、玻璃体、睫状体和视网膜的消除半衰期(T1/2β),分别为2.47、4.56、3.59和3.22小时,而晶状体中T1/2β为17.1小时,明显长于其他组织,采用0.5%14C-BDZL滴眼液滴眼,一次滴用后,眼部各组织中均可检测到药物,在晶状体中停留时间最长.

适应症:早期老年性白内障。

用法与用量:一日3次,每次1~2滴或遵医嘱.

不良反应:一过性灼烧感,流泪等反应,但能随着用药时间延长而适应.

禁忌症:眼外伤及严重感染时,暂不使用,或遵医嘱.

注意事项:部分并例出现一过性刺激感,如灼热感、刺痛等但不影响使用.发现药水污染或混浊请弃去不用.

规格: 8ml∶40mg.

贮藏:遮光,密闭保存.

有效期:暂定1.5年.

处方药:
说明:补充资料仅用于学习参考,请勿用于其它任何用途。