因为我们想要的是,总压强作为气相组分的函数。
Because really what we want is the total pressure as a function of the composition in the gas phase.
而这个过程是离子化,气相组分失去一个电子。
This is called ionization, gas phase species loses an electron.
该软件能分析半固态金属金相组织中的固相组分及晶粒尺寸。
The software can be used for analyzing solid fraction and grain size in microstructure of semi solid metal.
流体的运移性与粘度成反比,石油吸收部分气相组分后粘度降低。
The mobility is inversely proportional to the viscosity, and the viscosity is reduced when the oil takes up gaseous components.
考察了固相组分颗粒尺寸、液固比(L/P)和固化液组成等对骨水泥抗压强度的影响。
The effects of preparing conditions, such as particle size of the solid component, liquid-to-powder ratio (L/P) and liquid composition, on compressive strength of calcium phosphate were investigated.
笔者发现粘结剂制备中主要的影响因素是氢氧化钠的浓度,该粘结剂固相组分的粘结能力强于液体部分。
The main factor influenced on binder preparation was sodium hydroxide concentration. The binding ability of the solid component is higher than the liquor part.
原位晶化过程是焙烧微球在液相组分中先转变为硅铝酸钠凝胶,随后硅铝酸钠凝胶逐步地转变为Y型沸石。
The process of in-situ crystallization is that the roasted microparticles in the liquid phase convert into sodium silicoaluminate gel first and then the gels convert into zeolite Y gradually.
该方法引入了直接碱水解皂化烟叶及主流烟气粒相组分,省去了一般烟草样品测定中的所需的预分离过程。
This analytic method introduced direct alkaline hydrolysis, omitted laborious preliminary purification steps of samples prior to GC, and the method was simple and convenient.
阐明了三相组分型弹性孔隙流体介质各弹性参数的组分型计算公式,这些计算公式统称为孔隙介质组分方程法。
Clarifys the composition calculation formula of elastic parameters in this model, these formulas are called the composition equation method of porous media.
结果表明在一定螺杆转速、共混温度、共混时间范围内,PS/PA6共混物形成双连续相组分的比例范围为40/60—65/35;
The results showed that the range of the region of phase co-continuity PS/PA6 was 40/60-65/35 at experimental temperature, rotor speed or mixing time;
两个相,但只有一种组分。
我们所涉及的例子是一个二元系统,这个二元系统包含两个组分以及两个相。
And the example we gave was a binary system that has two components.
就能够很快算,出气相的组分,我现在知道所有的条件。
So I have all, I have everything I need to know t o calculate what the composition in the gas phase is.
这是组分数,这是相的数目。
我已经知道液相的组分在这里,我知道液体的组分之后。
And I know that should tell me immediately whether the composition in the gas phase is here.
所有得到的结果,都是基于,我们在两相中都有一些组分时,两相的化学势,一定相等,对吗?
So everything is derived from the fact that when we have any of the constituents in both phases, the chemical potential must be equal in both phases. Right?
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。
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.
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。
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.
我们已经用液相的组分,写出了气相的组分。
We've found composition in the gas phase in terms of composition in the liquid phase.
气相的组分比。
这个常数是纯物质的蒸汽压,乘以液相的组分,Raoult定律。
Which is the vapor pressure of the pure material times the, and the composition of the liquid phase, Raoult's law.
这些条件能够让我们计算出气体相的组分比,这样我就得到了计算相图的所有的条件,除了我需要把x轴改y而不是。
So I have everything I need, then, to calculate and draw a diagram that looks just like this x Except where my x-axis is the y's instead of the x's.
介绍了一种啤酒痕量有机组分的气相色谱分析方法,包括取样、样品处理及色谱柱的选择。
A gas chromatographic method is introduced for the analysis of trace organic components in beer, including sampling, pretreatment and column.
本文采用毛细管柱气相色谱法对洗油的主要组分进行了测定。
The main components of wash oil have been determined by capillary gas chromatography.
分别用电子探针(EPMA)、X衍射(XRD)和扫描电镜(SEM)查证了其组分、相结构和显微结构的梯度分布。
The distributions of composition, phase-and microstructure were examined respectively by using electron probe microanalysis (EPMA), X-ray Diffraction (XRD) and scanning electron microscopy (SEM).
介绍了采用毛细管气相色谱分析测定啤酒中的有机组分的方法。
The method of analysis of organic constituents in beer by headspace gas chromatography is given in this paper.
在一定范围内改变体系的初始压力、温度和THF浓度,得到了各组分在气-水合物两相的摩尔分率和体系达到平衡时的压力。
The equilibrium pressure of system and the mol fractions of all components in vapor and hydrate phases were gained at different initial pressures, temperatures and THF mol concentrations.
在一定范围内改变体系的初始压力、温度和THF浓度,得到了各组分在气-水合物两相的摩尔分率和体系达到平衡时的压力。
The equilibrium pressure of system and the mol fractions of all components in vapor and hydrate phases were gained at different initial pressures, temperatures and THF mol concentrations.
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