1) adsorption rate
吸附速度
1.
In order to improve the heat transfer and adsorption rate of the adsorbent bed used for adsorption refrigeration system, a consolidated composite adsorbent mainly made of active carbon is presented.
为提高固体吸附式制冷系统中吸附床的有效传热,本文提出了一种具有较高导热系数和较快吸附速度的固化块状活性炭,并对其物性和吸附性能进行实验研究。
2.
At present,Sakoda-Suzuki adsorption rate equation is favorable in adsorption refrigeration,in which adsorption rate constant is usually considered as the function of temperature for certain adsorption working pairs.
目前吸附制冷研究中广为采用的吸附速度方程是Sakoda-Suzuki方程,对于确定的工质对,该方程中的吸附速度常数一直被认为只是温度的函数。
3.
The characteristics of adsorption ratio,adsorption rate and adsorption heat for adsorption working pairs corresponding to one adsorption refrigeration is very important for the operation performance of an adsorption refrigeration system.
以活性炭-甲醇作为工质对,采用静态重量法对其进行吸附等温线测定,目的在于研究该工质对与吸附制冷相关的吸附率、吸附速度和吸附热等性质。
2) Velocity of potassium absorbing
钾吸附速度
3) adsorption/desorption rate
吸附/脱附速度
4) Adsorption rate constant
吸附速度常数
1.
At present,Sakoda-Suzuki adsorption rate equation is favorable in adsorption refrigeration,in which adsorption rate constant is usually considered as the function of temperature for certain adsorption working pairs.
目前吸附制冷研究中广为采用的吸附速度方程是Sakoda-Suzuki方程,对于确定的工质对,该方程中的吸附速度常数一直被认为只是温度的函数。
5) adsorption rate
吸附速率
1.
Several conditions influenced on the adsorption rate were also discussed.
为了分析蛭石对废水中有害金属离子的吸附性能,通过新疆蛭石对水中Cu2+、Pb2+和Zn2+的吸附速率实验,探讨了水溶液中几种反应条件对金属离子在蛭石上的吸附速率的影响。
2.
The saturated adsorptive capacity,adsorption rate and isothermal curve were investigated.
通过对树脂的饱和吸附量、吸附速率及吸附等温线的研究,得到了201×7树脂对氰化物的饱和吸附量为44。
3.
Adsorption isotherms and adsorption rate of water or ethanol on composite adsorbents prepared by the authors (named M4-0132, M1- 0001, M1-9906 and M2-0003 respectively), were tested.
本研究在对制冷用复合吸附剂制备[14]和吸附机理[15]探讨基础上,进一步研究水或乙醇在自制复合吸附剂上的吸附等温线、特征吸附功和吸附速率等吸附性能,为吸附制冷用吸附剂产品的开发及其系统设计提供依据。
6) advanced absorption
快速吸附
补充资料:特性吸附与半胶束吸附
特性吸附与半胶束吸附
specifical adsorption and hemi-micelle adsorption
texing xifu yu banJ旧oshu xifu特性吸附与半胶束吸附(speeifieal adsorp-tion and hemi一mieelle adsorption)矿物一水界面的吸附的两种形式。特性吸附是因矿物表面与溶液中某种组分(离子或分子)有特殊的亲和力而产生的吸附,也称特殊吸附。特性吸附不仅可以改变电位的数量而且还可以改变电位的符号。例如,刚玉(A12O3)在NaZSO‘或RSO;Na(烷基硫酸钠)溶液中,电动电位随溶液浓度的增大由正值逐渐减小,直至变为负值,说明刚玉对50矛一或RSO不离子有特殊的吸引力。半胶束吸附是水溶液中的表面活性剂在矿物表面产生的吸附,当吸附量达到一定值以后,由于烃基的缔合作用,表面活性剂的离子或分子在矿物表面上形成紧密的吸附层,这类似于溶液中形成的胶束结构,但所形成的“胶束”与溶液中形成的胶束不同,只有二维空间,故称这类吸附为半胶束吸附。矿物表面对胺类捕收剂的吸附,当胺的浓度较大时,常可以产生半胶束吸附。 (龚焕高)
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