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Assume we have 1 mol H2O(g) under 1 atm and 373 K. If we carefully isothermally compress the water vapor, metastable vapor can be
Assume we have 1 mol H2O(g) under 1 atm and 373 K. If we carefully isothermally compress the water vapor, metastable vapor can be obtained under 2 atm and 373 K in the absence of a condensation nucleus. However, the metastable water vapor transformed into liquid water soon. Calculate the AH, AG, and AS of the process of metastable water vapor transforming into liquid water. The molar enthalpy of vaporization (ArapH) of water is 46.02kJ/mol, and the density of water is 1000 kg/m. Water vapor can be regarded as ideal gas, and the volume of liquid can be regarded as not affected by pressure.
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Elements Of Chemical Reaction Engineering
Authors: H. Fogler
6th Edition
013548622X, 978-0135486221
