44, Cp closed, well-insulated rigid tank initially contains 3.80 kg of CO₂ (MW = ork in the amount of 425 kJ is added to system raising the pressure to 306.0 kPa. alculate the final temperature in the tank. inal temperature: 258.95 alculate the entropy generated during this process. ntropy: = 37.2 kJ/kmol-K) at 208.0 kPa. Electric °C kJ/K
44, Cp closed, well-insulated rigid tank initially contains 3.80 kg of CO₂ (MW = ork in the amount of 425 kJ is added to system raising the pressure to 306.0 kPa. alculate the final temperature in the tank. inal temperature: 258.95 alculate the entropy generated during this process. ntropy: = 37.2 kJ/kmol-K) at 208.0 kPa. Electric °C kJ/K
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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A closed, well‑insulated rigid tank initially contains 3.80 kg3.80 kg of CO2CO2 (??=44, ?p=37.2 kJ/kmol·K)(MW=44, Cp=37.2 kJ/kmol·K) at 208.0 kPa.208.0 kPa. Electric work in the amount of 425 kJ425 kJ is added to system raising the pressure to 306.0 kPa.
Calculate the entropy generated during this process.
I originally got 11.15 kj/k but that was wrong.
Transcribed Image Text:A closed, well-insulated rigid tank initially contains 3.80 kg of CO₂ (MW = 44, Cp = 37.2 kJ/kmol·K) at 208.0 kPa. Electric
work in the amount of 425 kJ is added to system raising the pressure to 306.0 kPa.
Calculate the final temperature in the tank.
final temperature:
Calculate the entropy generated during this process.
entropy:
258.95
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°C
kJ/K
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