Based on the Clausius-Clapeyron equation, the Virial equation and the newest phase equilibrium equations of helium-3, two important properties on the phase equilibrium curves, that is, the vaporization heat and the melting heat have been calculated.
基于C lausius-C lapeyron方程、维里方程和最新开发的氦-3相平衡曲线方程计算了氦-3在平衡曲线上的两个重要性质:汽化热(0 K~3.315 7 K)和熔解热(0.001 K~35 K)。
Isosteric heats of methane adsorption on activated carbon were determined from our experimental adsorption isotherm of methane by using the Clausius-Clapeyron equation.
讨论了活性炭床温度、充气量及充气效率等的变化规律,并对缓减吸附热引起的充气量下降的措施进行了数值模拟。
The equation of Clausius-Clapeyron was used for calculating the adsorption heat of water on 4A molecular sieves. According to the adsorption heat, the mechanism of adsorption was discussed.
采用Clausius-Clapeyron方程计算了水在4A分子筛上的吸附热,并据此探讨了吸附机理;
Sublimation or vaporization, and this is the Clausius-Clapeyron equation.
升华或者蒸发,这就是克劳修斯&克拉珀龙方程。
Let's do a one minute review, & and then move onto the Clausius-Clapeyron equation and see how far we can go on that.
我们做一个简短的回顾,然后继续讨论克劳修斯-,克拉珀龙方程,然后看我们能把这个方程推广到什么地步。
You had to take that from measurement and then given that, you could use the Clausius-Clapeyron equation and so forth and look at the way things behaved if you moved along a line in a phase diagram.
我们以前都是通过测量才得到这些东西,一般我们,利用克劳修斯-克拉伯龙方程等等,来看会发生什么事情,当我们沿着相图里面的线。
According to Clausius-Clapeyron equation, we deduced the relation curve between vapor pressure of titanium tetrachloride and gasification temperature.
根据克劳修斯&克拉佩龙方程推出了四氯化钛的蒸汽压与温度的关系曲线。
A relatonship between the Clausius-Clapeyron equation and Savant Arrhenius equation has been found as follows: By means of the vapour pressure characteristic function, comparisons between the tendencies and rates of evaporation of some liquids have been made.
并找出联系克劳修斯&克拉贝龙物态转变方程式与阿累尼乌斯速度经验式的关系式:同时,应用蒸气压这一特徵函数对某些常见液体的蒸发趋势与速度进行比较与应用。
Application of Clausius-Clapeyron equation in the system of surface adsorption
Clausius&Clapeyron方程在界面吸附体系中的应用
The saturation vapor pressures in natural brine system were measured at the different temperature of 121 to 60.5 ℃. The experimental data were correlated by Clausius-Clapeyron equation and water activities were calculated.
在温度12.1~60.5℃范围内测定了地下卤水体系的饱和蒸汽压,并采用Clausius-Clapeyron方程进行关联,计算水活度;
The relationship between concentrations and temperature by Clausius-Clapeyron equation indicated that temperature was the main factor governing the transportation of gas-phase PAHs from mid-latitude area to the Arctic.
通过Clausius-Clapeyron方程对浓度和温度相互关系的分析表明,温度是控制气相多环芳烃长距离传输的主要因素。
In present paper, the suppression factor of Chen's model is determined, based on the force and heat balance on a vapour bubble and Clausius-Clapeyron equation, the active nucleate cavity size of flow boiling surface and its disperse characteristic.
以核化理论为基础,在考虑沸腾表面微结构分布的影响下,确定了流动沸腾换热关系式中Chen模型抑制因子的表达式。
The equilibrium coefficient can be calculated by Clausius-Clapeyron saturated vapor pressure equation in internal iteration.
内层迭代采用克拉伯龙饱和蒸汽压方程计算平衡常数。