1) adsorption/desorption rate
吸附/脱附速度
2) 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。
3) adsorption/desorption
吸附/脱附
1.
In this paper, the physical characteristics of rice husk and char particles prepared under different gasification processes were studied by physical adsorption/desorption measurements of N2 (-196℃), mercury intrusion porosimetry (414 MPa) and true density measurement (He).
本文通过氮气等温吸附/脱附法(-196℃)、压汞法(414MPa)、真密度仪(He)等详细研究了在气化条件下谷壳的物理结构的演化,同时利用元素分析和傅里叶红外对颗粒化学结构进行分析。
2.
To study the physical characteristics of rice husk/char particles,proximate and ultimate analyses,physical adsorption/desorption measurements of N2(-196℃),mercury injection porosimetry(414 MPa)as well as visu.
通过氮气等温吸附/脱附法(-196℃)、压汞法(414MPa)、SEM等详细研究了在高速热解条件下谷壳的物理结构的演化。
3.
Multilayer adsorption theory was combined with the corrected Kelvin equation to analyze nitrogen adsorption/desorption data to get the fr.
该方法是根据多层吸附理论,对氮气等温吸附/脱附法测定的数据分析,直接获得表征整个吸附范围的颗粒分形维数,同时回归得到吸附过程中的吸附层数。
4) Desorption and adsorption
脱附吸附
5) Adsorption-desorption
吸附-脱附
1.
Due to the high reclaim cost of granulated activated carbon,which will create environmental problems after inactivation,we screened from two adsorption resin by static and dynamic adsorption experiments and then optimized the adsorption-desorption conditions.
由于活性炭再生困难,废弃后造成生态破坏,通过树脂的静态-动态吸附实验,筛选出D730丙烯酸系大孔强碱阴树脂,并优化其吸附-脱附条件。
6) No adsorption-desorption
NO吸附-脱附
补充资料:吸附-脱附机理
分子式:
CAS号:
性质:同位素交换反应在吸附剂表面上进行,反应物的分子被活化吸附而分解;脱附后,结合成同位素交换后分子的过程。例如,高温时交换反应H2+D22HD的动力学特性是,H2和D2分子在镍催化剂表面上活化吸附分解成氕原子和氘原子是决定性步骤,这类同位素交换反应按吸附-脱附机理进行。
CAS号:
性质:同位素交换反应在吸附剂表面上进行,反应物的分子被活化吸附而分解;脱附后,结合成同位素交换后分子的过程。例如,高温时交换反应H2+D22HD的动力学特性是,H2和D2分子在镍催化剂表面上活化吸附分解成氕原子和氘原子是决定性步骤,这类同位素交换反应按吸附-脱附机理进行。
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