a) Calculate the pressure exerted by 5 kg of Carbon dioxide gas placed in a 2000-liter vessel at a temperature of 47°C using Redlick Kwong equation of state. RT Vm-b 772 0.42748 R² T 2.5 Pe -) D) Also, determine the pressure of the gas if it behaves ideally in nature. If volume occupied by CO₂ was reduced by 500L, then calculate the new pressure exerted by 1kg of CO₂ if the temperature of the gas changed to 273° K, assuming that CO₂ behaves ideally in nature. P= a VTVm (Vm + b) b = 0.08662 RT Pc (Note: Thermodynamic property table is provided)

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
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a) Calculate the pressure exerted by 5 kg of Carbon dioxide gas placed in a
2000-liter vessel at a temperature of 47°C using Redlick Kwong equation
of state.
A=
RT
Vm-b
772
0.42748 R²2.5
P=
a
VTVm (Vm + b)
b
-
0.08662 RT
Pc
Pe
b) Also, determine the pressure of the gas if it behaves ideally in nature.
c) If volume occupied by CO2 was reduced by 500L, then calculate the new
pressure exerted by 1kg of CO₂ if the temperature of the gas changed
to 273° K, assuming that CO₂ behaves ideally in nature.
(Note: Thermodynamic property table is provided)
Transcribed Image Text:a) Calculate the pressure exerted by 5 kg of Carbon dioxide gas placed in a 2000-liter vessel at a temperature of 47°C using Redlick Kwong equation of state. A= RT Vm-b 772 0.42748 R²2.5 P= a VTVm (Vm + b) b - 0.08662 RT Pc Pe b) Also, determine the pressure of the gas if it behaves ideally in nature. c) If volume occupied by CO2 was reduced by 500L, then calculate the new pressure exerted by 1kg of CO₂ if the temperature of the gas changed to 273° K, assuming that CO₂ behaves ideally in nature. (Note: Thermodynamic property table is provided)
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