本文归纳了真实气体的状态方程,并推荐一个计算逸度的简便公式。
The article sums up the constitutional equation of authentic gas and recommends a convenient formula of calculating fugacity.
但由于气体的可压缩性明显大于液体,因而气体的状态方程与液体完全不同。
But due to the compressibility of gas significantly higher than fluid, the state equation of gas is different from fluid.
用气体的状态方程可以估算出“倒灌”后各层压力的变化和“倒灌”的气量。
The pressure change and the gas flown into or out from any layer in the case can be calculated with the state equation for 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.
由这一方程所反映的气体宏观量之间的关系,就比理想气体的状态方程更准确,更接近真实气体了。
It describes more accurately the real gas than the one about the ideal gas because it reflects the relation among macrocosmic gas.
我们回到经常使用的理想气体模型,或者说状态方程。
So let's take our one model that we keep going back to Equation of state, and just see how it works.
所以,从测量的到的状态方程的数据,或者从状态方程模型比如理想气体方程,范德·瓦尔斯方程或者其他状态方程,我们就可以知道。
So from measured equation of state data, or from a model like the ideal gas or the van der Waal's gas or another equation of state you know this.
考虑一个不同的状态方程,这状态方程不像理想气体状态方程那么简单。
Let's try it with a different equation of state, that isn't quite as simple as the ideal gas case.
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.
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.
本文给出理相量子气体在高温条件下极端相对论的状态方程、焓和热容量,并对其规律进行物理分析。
This paper gives equation of states, enthalpy and heat capacity of the perfect quantum gas under the high temperature and briefly analyzes the laws.
在更高的温度区内,状态方程越来越接近于“理想气体”定律。
At higher temperatures the equation of state becomes better and better approximated by the "perfect gas" law.
利用理想气体状态方程计算气泡内空气的最高温度。
The ideal gas state equation is used to calculate the maximum temperature of air trap.
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.
通过计算比较发现,基于PR状态方程的粘度预测模型误差较大,而LBC经验关系能较准确地确定酸性气体的粘度。
Calculation shows that the viscosity model based on pr state equation has big error, while LBC empirical relationship can provide more accurate viscosity of acidic gas.
应用微扰理论并借鉴二维气体理论的处理方法,建立了非离子表面活性剂水溶液的表面状态方程。
A surface equation of state for nonionic surfactant aqueous solutions is developed by using perturbation theory and two - dimensional gaseous theory.
一个状态方程有关的压力,温度和气体密度。
An equation of state relates the pressure, temperature, and density of the gas.
应用理想气体状态方程,对柴油机活塞燃烧室容积的检测方法进行了研究。
Based on ideal gas equation, the measurement method of diesel engine piston combustion chamber volume was researched.
应用基于理想气体状态方程的气幕隔震的压力有限元模型,对模型气幕的隔震效果进行了研究。
The FEM air isolation model based on the state equation of ideal gas is used to study the effects of air isolation.
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.
根据气体状态方程和平衡方程,推导出在某点真空表反映的真空度值与孔压计反映的孔压差的理论关系式。
The theoretical formula about vacuity in vacuum tube and pore-water pressure at the observation point was obtained in this paper by using equation of gas state and equilibrium equation.
根据酸性气体粘度的预测方法,对比了基于PR状态方程的粘度模型、经验公式和图版法在预测酸性气体粘度时的准确性。
The accuracy of viscosity model based on pr state equation, empirical equation and chart method for predicting acidic gas viscosity is correlated.
绝对满足理想气体状态方程的气体一定满足焦耳定律。
The gas which meets the ideal gas equation absolutely will be bound to meet Joule's law.
提出了一种利用气体状态方程来计算压缩空气瓶的冷凝水水位新见解,对压缩空气瓶的安全使用具有重要意义。
A new opinion is brought forward about using gas status equation to compute coagulation water in the compress air bottle, we can gain a master of th...
从本质上分析了理想气体状态方程的局限性,提出了利用压缩系数提高天然气流量精度的概念,从而改进了状态方程。
Analying the limit of state equation of ideal gas in substance, the conception that using compressional factor improves the accuracy of gas flux is introduced and the state equation is mended.
从本质上分析了理想气体状态方程的局限性,提出了利用压缩系数提高天然气流量精度的概念,从而改进了状态方程。
Analying the limit of state equation of ideal gas in substance, the conception that using compressional factor improves the accuracy of gas flux is introduced and the state equation is mended.
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