2) isothermal absorption
等温吸收
3) non-isothermal absorption
非等温吸收
1.
For non-isothermal absorption accompanying phase change process, with analytical calculation method, the number of equilibrium stage and the relative parameters of each stage are deduced .
应用解析计算法对伴有相变非等温吸收过程的平衡级数及各平衡级有关参数值进行了演算 ,还对阶梯图 ,解法与解析法作了某些比较。
4) adsorption isotherms
吸附等温线
1.
The adsorption isotherms of Sodium Dodecyl Sulfonate(SDS) onto wool fiber surface which experienced clean processing from an acid aqueous solution(pH3.
5)水溶液中对十二烷基磺酸钠(SDS)的吸附等温线,以及羊毛在不同助剂(含乙二醇/苯甲醇和硫酸锌)的水溶液中对SDS的吸附等温线。
2.
The thermodynamics properties and mechanism of sorption process were studied for adsorpting phenol,p-cresol and p-methoxyphenol in aqueous solution with carbon nanotubes(CNTs)and the adsorption isotherms at different temperstures were determined.
本文研究了水溶液中碳纳米管(CNTs)吸附苯酚、对甲酚和对甲氧基苯酚的热力学特性,测定了不同温度下的吸附等温线,并探讨了其可能的吸附机理。
3.
Both adsorption isotherms and the average particle Zeta potential were studied in order to understand the suspension stability as a function of pH value,NaCl concentration,and surfactant concentration.
研究抗菌釉料(石灰石、长石、石英、高岭土及抗菌剂-纳米TiO2)对表面活性剂十二烷基苯磺酸钠(SDBS)的吸附性能,利用吸附等温线分析其吸附行为。
5) adsorption isotherm
吸附等温线
1.
Determination of competitive adsorption isotherms of tryptophan enantiomers by inverse method;
逆向法确定色氨酸对映体竞争型吸附等温线
2.
Measurement and simulation of adsorption isotherms of VOCs on MAC;
VOCs在MAC上吸附等温线的测定与拟合
3.
The configuration analysis of the adsorption isotherm of nitrogen in low temperature with the lignite char produced under fast pyrolysis;
快速热解褐煤焦的低温氮吸附等温线形态分析
6) sorption isotherm
吸附等温线
1.
The emphasis is put on the discussion of the effect of pH value and temperature on the sorption,and on the drawing of sorption isotherm.
探讨pH值和温度对吸附作用的影响,绘制吸附等温线。
2.
The sorption isotherm was evaluated at the same time.
主要讨论了pH和温度对吸附作用的影响,并绘制了吸附等温线。
3.
The sorption isotherms of phosphate to different nutrient levels of sediments in different pH were studied.
研究了不同营养水平沉积物在不同pH下对磷酸盐的吸附等温线,分别采用了线性和非线性2种方法拟合吸附等温线,并分析比较了2种方法的适用性。
补充资料:吸收等温线
分子式:
CAS号:
性质: 在一定的温度下,气液两相处于平衡状态时,溶质在液相中的浓度(即溶解度)与其在气相中的分压的关系曲线。也可表示成溶质在液相中的浓度与其在气相中的浓度的关系曲线。浓度通常用摩尔分率表示。
CAS号:
性质: 在一定的温度下,气液两相处于平衡状态时,溶质在液相中的浓度(即溶解度)与其在气相中的分压的关系曲线。也可表示成溶质在液相中的浓度与其在气相中的浓度的关系曲线。浓度通常用摩尔分率表示。
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