Cyclohexane vapor at 180°C and 5 atm is cooled and condensed to liquid then solidified to solid at 6.5°C and 1 atm write the hypothetical process path to calculate the specific enthalpy change of this process step by step in the following blanks nothing that: 1-the condensation happens at 80.7°C and 1 atm 2- freezing happens at 6.5°C and 1 atm O 1. changing pressure at a constant temperature O 2. Changing the temperature at constant pressure O 3. Phase change at constant temperature and pressure O 4. the changing temperature at constant pressure O 5. phase change at constant temperature and pressure

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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Cyclohexane vapor at 180°C and 5 atm is cooled and condensed to liquid then solidified to solid at 6.5°C and 1 atm
write the hypothetical process path to calculate the specific enthalpy change of this process step by step
the following blanks nothing that:
1-the condensation happens at 80.7°C and 1 atm
2- freezing happens at 6.5°C and 1 atm
O 1. changing pressure at a constant temperature
O 2. Changing the temperature at constant pressure
O 3. Phase change at constant temperature and pressure
O 4. the changing temperature at constant pressure
O 5. phase change at constant temperature and pressure
Transcribed Image Text:Cyclohexane vapor at 180°C and 5 atm is cooled and condensed to liquid then solidified to solid at 6.5°C and 1 atm write the hypothetical process path to calculate the specific enthalpy change of this process step by step the following blanks nothing that: 1-the condensation happens at 80.7°C and 1 atm 2- freezing happens at 6.5°C and 1 atm O 1. changing pressure at a constant temperature O 2. Changing the temperature at constant pressure O 3. Phase change at constant temperature and pressure O 4. the changing temperature at constant pressure O 5. phase change at constant temperature and pressure
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