临界区和超临界区水和水蒸气学性质的计算越来越受到重视。

The importance of calculating water and steam properties in critical and supercritical regions has been increasingly emphasized.

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在接触大量水和水蒸气条件下职业，不散失，不乳化， 噪音和震撼达到最低极限。

Working in contact with plenty of water or steam, there is no running off, no emulsification, noise and vibration are of the minimum.

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根据我的记忆，水往复地变化，从湖泊和海洋里的水变成水蒸气，然后当它以雨或雪——也就是降水的形式落下时又变成水。

From what I remember, water changes back and forth from water in lakes and oceans to vapor, and then back to water again when it falls as rain or snow, as precipitation.

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There's the water phase, there's the ice cube is the solid phase, and there's some water, gas, vapor, and that's one bar.

里面放一块冰，这是固态；,于是我们得到了水，冰和水蒸气三态共存的点。

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And you can find these compressibility factors in tables. If you want to know the compressibility factors for water, for steam, at a certain pressure and temperature, you go to a table and you find it.

各种气体的压缩系数,想知道水或者水蒸气,在某个温度和压强下的，压缩系数，查表就行了，这是实际气体状态方程的。

麻省理工公开课 - 热力学与动力学课程节选