文章推导出了双组分理想混合物的需点与泡点之间的温度差计算公式。
A formula was derived to calculate the temperature difference between the dew point and boiling point of a binary ideal mixture.
因此,论文选用理想混合物模型来预测其密度、体积声速、特性波阻抗(以后在本论文中简称波阻抗)、比热、格林·爱森常数、冲击雨贡纽系数等物性参数。
So, the ideal mixture model is adopted to estimate their densities, volume velocities, wave impedances, specific heats, Gruneisen parameters and Hugoniot coefficients.
这是零,又一次,在理想液体混合物的情况下,它们的分子没有相互作用。
This is zero. So again, in the ideal liquid mixture case, their molecules aren't interacting.
当然,在理想液体混合物的情况下,没有能量相互作用。
Of course, in the case of the ideal liquid mixture, there's no energetic interaction.
当我们有一个混合物时,我们从理想气体开始讨论。
When we have a mixture, and we're going to start with ideal gases.
顺便说一下,它很简便,因为它看起来就像理想气体,混合物中化学势的表达式。
By the way, it's convenient because it looks just like the chemical potential in a mixture of ideal gases.
这个不同将决定,液体混合物与理想溶液的情况,会偏离多远。
And this difference is what's going to determine how far the liquid mixture will deviate from the ideal solution case.
通常,如果我们要,处理的相对于,理想液体混合物,理想溶液相差不多,那么我们可以从这样的模型开始。
And in general, if we're going to deal with relatively small deviations from the ideal liquid mixture, the ideal solution, then we can start with a model like this.
在理想的液体混合物中。
那么如果我们有理想气体,当然如果我们设想,理想液体混合物,我们就能放心地,假设上面是理想气体。
So if we have an ideal gas, and certainly if we're going to assume an ideal liquid mixture, we can safely assume that it's an ideal gas above it.
在理想液体混合物中。
在简单或理想液态混合物中,会有一个叫拉乌尔定律的定理。
What you saw is that in simple or ideal liquid mixtures, a result called Raoult's law would hold.
轻度高血糖可通过减少葡萄糖含量或通过在肠外营养混合物中加入普通胰岛素的方法来治疗,将血糖维持在理想的范围内。
Mild degrees of hyperglycemia can be treated by decreasing the dextrose content or by adding regular insulin to the parenteral-nutrition mixture to maintain blood glucose within the desired range.
颜色代码和摄影风格提供一个理想的现代性和专业能力的混合物。
The colour codes and photographic style offer an ideal mixture of modernity and competent professionalism.
介绍理想气体、理想气体混合物、真实气体、真实气体混合物的有效能计算方法,并以硫酸工业中常见气体为例加以说明。
The calculation methods for available energy of perfect gases and their mixture, and true gases and their mixture are discussed with the example of gases common in sulphuric acid industry.
介绍了膜分离的原理及各参数对分离过程的影响,并给出在理想情况下二元混合物所能得到的易透过组分在渗透物中的浓度计算公式。
The principles of the membrane separation and the influence of the parameters on the separation process are introduced. Some equations obtained in ideal conditions are showed.
结果表明乙二醇与醋酸钾的混合物是分离甲乙酮水二元恒沸物的理想萃取剂。
The separation of azeotrope of methyl ethyl ketone water has been investigated by extractive distillation using the mixture of ethylene glycol and potassium acetate as an extractant.
结果表明乙二醇与醋酸钾的混合物是分离甲乙酮水二元恒沸物的理想萃取剂。
The separation of azeotrope of methyl ethyl ketone water has been investigated by extractive distillation using the mixture of ethylene glycol and potassium acetate as an extractant.
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