I take my gas phase composition out and I re-liquefy it.
把气相部分拿出来再液化。
The overall gas phase composition also determines the concentration of the growth species.
整个气相成分也可决定生长物质的浓度。
So I can draw a diagram that looks just like this except now with the X-axis being the gas phase composition.
这样我就可以做一个,和这个相似的相图,唯一不同之处就在于x轴代表气体组分比。
The composition in the gas phase changes.
气相的组成发生变化了。
So this is the composition in the gas phase.
这是气相中成分的比例。
OK. So ah the first question is, what's the composition in the gas phase.
好,那第一个问题是,气相的成分是什么。
What's the composition of liquid, compared to the composition of the gas phase?
和气相成分比较,液体的成分是什么?
I'm on this point here, I keep my solution, my mixture. I make a gas, I read off the composition of the gas phase here.
我在这个点,保持溶液混合物,然后进行汽化,在这里读出气相的成分比例。
Because really what we want is the total pressure as a function of the composition in the gas phase.
因为我们想要的是,总压强作为气相组分的函数。
The composition in the gas phase.
气相的组分比。
If I'm sitting below the line here somewhere, so I'm sitting here. Some composition in the gas phase, a certain pressure.
如果我位于这条线以下的,某个位置,比如这里,给定的压强,给定的气体组分,很好。
And I know that should tell me immediately whether the composition in the gas phase is here.
我已经知道液相的组分在这里,我知道液体的组分之后。
Also if you want to calculate chemical equilibria in the liquid and gas phase, of course, now you've seen chemical equilibrium, so the amount of reaction depends on the composition.
如果你想计算液相,和气相的化学平衡,当然,你们知道化学平衡,反应的量决定于组分的比例。
We started out with four variables; the temperature, the pressure, and the components in the composition in the liquid phase and the composition in the gas phase.
我们一开始有四个变量:,温度,压强,某个组分在液体中的比例,和它在气体中的比例。
But now, it's not as a function of the composition at the liquid phase it's a function of the composition in the gas phase.
但是现在,这里不再是以液相的组分比,作为变量,而是以气相的组分比作为变量。
And I can find out the composition in the gas phase now.
现在我可以知道气体的的组分比。
So I'm going to find the total pressure as a function of the composition in the gas phase.
我想找到总压强作为,气相中组分的函数。
So I have all, I have everything I need to know t o calculate what the composition in the gas phase is.
就能够很快算,出气相的组分,我现在知道所有的条件。
So we're down somewhere in the gas phase with some composition.
也就是我们,有一些气态的组分。
We've found composition in the gas phase in terms of composition in the liquid phase.
我们已经用液相的组分,写出了气相的组分。
I'm looking for the composition in the gas phase.
我想知道气体的组分比。
So I've gotten the composition in the gas phase in terms of the composition in the liquid phase.
我利用液体中的组分,表示出了气体中的组分。
And I can invert this to get the composition in the liquid phase in terms of the composition in the gas phase it's not so straightforward, but you can get xA as a function of yA, as well.
然后即可以用气体中的组分,写出液体中的组分,虽然过程不简单,但是你可以得到xA作为yA的函数。
A calculation method of gas liquid solid three phase equilibrium is presented based on the characteristics of composition and phase behavior of an oil and gas system.
根据油气烃类体系的组成特点和相态特征,提出了气液固三相相平衡的计算方法。
Study on interfacial tension, composition, density, viscosity and saturation of gas pha - se and liquid phase front in the slim tube under various injection pressures and injection rate.
分别研究了不同注入压力和注入气量下,细管中注气混相驱前缘和过渡带中气液两相的界面张力、组成、密度、粘度及饱和度的变化情况。
Phase behavior experiment and full composition simulation analysis of condensate gas is the key of producing condensate fields rationally and enhancing condensate recovery.
凝析气相态实验及全组分模拟分析是合理开采凝析气田和提高凝析油采收率的关键。
The liquid product from gas-phase amination of 2, 6-diisopropyl phenol was analyzed by gas chromatography-mass spectrometry, and the composition of the product was determined.
对2,6 -二异丙基苯酚气相胺化反应的液相产品进行了气相色谱-质谱分析,确定了产物组成。
The liquid product from gas-phase amination of 2, 6-diisopropyl phenol was analyzed by gas chromatography-mass spectrometry, and the composition of the product was determined.
对2,6 -二异丙基苯酚气相胺化反应的液相产品进行了气相色谱-质谱分析,确定了产物组成。
应用推荐