对实际气体而言,它不仅仅依赖于温度。
我们需要描述实际气体,的状态方程。
For real gases. This is an equation of state for an ideal gases.
实际气体的绝热节流效应通常用绝热节流系数来表示。
Adiabatic throttle coefficient is used to denote adiabatic throttle effect of real gas.
本文对压缩理想气体和实际气体的离心式叶轮作了流场分析。
This paper presented the flow field analysis in centrifugal impellers compressing perfect and real gases respectively.
本文对实际气体的统计热力学模型及气液相平衡进行了计算机模拟。
In this article, we did computer simulation for the statistical thermodynamic model of real gas and its vapor-liquid phase equilibria.
目的是讨论离心式叶轮内理想气体与实际气体流场分析结果之间的差异。
This paper presented the flow field analysis in centrifugal impellers compressing perfected real gas respectively.
本文根据实际气体的压缩因子和维利状态方程,对湿空气的高温焓湿图进行了分析。
In this paper, according to virial equation of state for real gas, the high temperature psychrometric chart of humid air is analyzed.
实际气体不同于理想气体。但在许多条件下,实际气体的行为与理想气体的行为相似。
The real gases are different from the ideal gas. But the behavior of real gases resembles that of the ideal gas under many conditions.
给出了一种普遍求解实际气体经过任意过程温度极值的计算方法,并举例进行了讨论。
A new method is presented to calculate temperature extremum of actual gas in arbitrary process and an example is given.
第三、第四章在理想气体的基础上,得出了实际气体状态方程及其多变过程中热力学计算。
In chapter three and four, we give some state equations of real gas and the thermodynamical analysis in polytropic process based on the theory of ideal gas.
这是理想气体的状态方程,对实际气体,你可以在教科书里,找到许多描述它们的,状态方程。
For real gases, there's a whole bunch of equation the states that you can find in textbooks, and I'm just going to go through a few of them.
该文对范德·瓦尔斯气体模型提出修改意见,并导出更符合实际气体特点的状态方程和内能公式。
In the paper, modification suggestion to Vander Waals gas model is provided; state equation and internal energy formula which are more suitable for characteristic of real gas are derived.
通过分析范德瓦尔斯方程的体积修正项在几个典型实验中所起的作用,讨论分子斥力对实际气体性质的影响。
The influence of molecular repulsive force in the properties of real gas was discussed through the analysis with Van der Weals equation.
考虑到实际气体分子之间的相互作用,利用正则分布,按照气体压强的统计解释,得到了实际气体的压强方程。
Considering the interaction of practical gas, using the canonical distribution and statistical interpretation of gas pressure, this paper derives a pressure formula of practical gas directly.
给多方过程以恰当的定义,并对理想气体多方过程作详尽的探讨,为研究实际气体的实际过程提供了更多的线索。
A suitable definition for adiabatic process equation and study on the ideal gas adiabatic process in detail provide more clues for practical gas process.
给多方过程以恰当的定义,并对理想气体多方过程作详尽的探讨,为研究实际气体的实际过程提供了更多的线索。
A suitable definition for adiabatic process equation and study on the ideal gas adiabatic process in detail provide more clues for practical gas process.
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