Two chambers are separated by a partition. Oneof the chambers is evacuated, and the other has avolume of 1 m3 and contains steam at T 5 500°Cand P 5 10 bar. The partition is removed, allowingthe gas to expand into the evacuated chamber. Noheat transfer occurs with the surroundings. The finalsteam pressure is P = 4 bar. FindA. The mass of steam.B. The volume of the chamber that was initiallyevacuated.C. The change in entropy of the universe resultingfrom the process.D. Re-do parts A–C, but this time, instead of steam,assume the 1 m3 chamber was filled with an idealgas with Cp* = (7/2)R.
Two chambers are separated by a partition. Oneof the chambers is evacuated, and the other has avolume of 1 m3 and contains steam at T 5 500°Cand P 5 10 bar. The partition is removed, allowingthe gas to expand into the evacuated chamber. Noheat transfer occurs with the surroundings. The finalsteam pressure is P = 4 bar. FindA. The mass of steam.B. The volume of the chamber that was initiallyevacuated.C. The change in entropy of the universe resultingfrom the process.D. Re-do parts A–C, but this time, instead of steam,assume the 1 m3 chamber was filled with an idealgas with Cp* = (7/2)R.
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
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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| Two chambers are separated by a partition. One of the chambers is evacuated, and the other has a volume of 1 m3 and contains steam at T 5 500°C and P 5 10 bar. The partition is removed, allowing the gas to expand into the evacuated chamber. No heat transfer occurs with the surroundings. The final steam pressure is P = 4 bar. Find A. The mass of steam. B. The volume of the chamber that was initially evacuated. C. The change in entropy of the universe resulting from the process. D. Re-do parts A–C, but this time, instead of steam, assume the 1 m3 chamber was filled with an ideal gas with Cp * = (7/2)R. |
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