In the internal iteration, author used the adjusted Clausius-Clapeyron satur-vapor pressure equation to calculate the equilibrium coefficient.
内圈迭代采用校正克拉珀龙饱和蒸汽压方程计算平衡常数。
Under the assumptation that the "Pressure Zero Temperature Point" exists, with the corresponding state method, a new vapor pressure equation was established in this thesis.
在假设存在“压力零点温度”的概念基础上,运用对比态的方法,本文提出了一个新的饱和蒸气压方程。
The calculated values for saturated vapor pressure and binary VLE by using this new equation of state are in good agreement with experimental values.
用此状态方程计算纯物质饱和蒸汽压和二元汽液平衡,计算值和实验值符合很好。
Through regression of saturated vapor pressure of C1-C16 , a new alpha function for PRSV equation at low relative temperatures was proposed.
通过回归C1~C16 16种饱和烷烃的饱和蒸气压值,提出了低对比温度下PRSV方程的新温度函数关联式。
A new constant A_5 was introduced to the MH-81 equation of state, which can be determined from vapor pressure data.
本文在MH- 81状态方程的基础上,引入了一个新的常数a_5,并由两相区的蒸汽压数据确定它。
It can evaluate the mass loss caused by evaporation in vacuum, obtain a saturated vapor pressure-temperature equation, and provide a means to verify saturated vapor pressure at normal temperature.
为预测其在真空下长期使用中的蒸发损失量,以及验证在常温下的饱和蒸气压指标提供了一种方法。
This regression equation offers an easy way to calculate precipitable water vapor by means of surface vapor pressure for the stations without Sounding conditions, so it has great practical value.
此回归方程为不具有探空条件的气象站点提供了利用地面水汽压计算水汽总量的简便方法,具有良好的实际应用价值。
This regression equation offers an easy way to calculate precipitable water vapor by means of surface vapor pressure for the stations without Sounding conditions, so it has great practical value.
此回归方程为不具有探空条件的气象站点提供了利用地面水汽压计算水汽总量的简便方法,具有良好的实际应用价值。
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