EBK INTRODUCTION TO CHEMICAL ENGINEERIN
EBK INTRODUCTION TO CHEMICAL ENGINEERIN
8th Edition
ISBN: 9781259878091
Author: SMITH
Publisher: MCGRAW HILL BOOK COMPANY
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Chapter 10, Problem 10.1P
Interpretation Introduction

Interpretation:

The change in entropy should be determined for CO2 and N2 blending together to form a gas mixture at same conditions assuming them to be ideal gases.

Concept introduction:

The internal energy change for any reversible process is written as:

dU=TdSPdV

Where, dU is change in internal energy, dS is change in entropy and dV is change in volume.

Here, T is temperature and P is pressure.

Ideal gas equation is given by:

PV = nRT

Where, P = Pressure

V = volume

n = number of moles

R = gas constant

T = temperature

And, total entropy change is identified by adding the change in entropy for individual gases.

That is, ΔStotal =ΔS1 +ΔS2

Expert Solution & Answer
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Explanation of Solution

Given Information:

Initial volumes of the gases are:

CO2=0.7m3N2=0.3m3

Final Volume =0.7m3+0.3m3=1.0m3

Pressure of each gas is 1 bar

Temperature is 250C=298 K .

Step1:

Establish equation for entropy change.

Since, after mixing there has been no change in internal energy. So, the dU term will become zero such as:

dU=TdSPdV0=TdSPdVTdS=PdV

Hence, change in entropy can be written as:

dS=PdVT

Further, the gases are considered to be ideal and so as per ideal gas equation:

PV=nRTPT=nRV

Putting the value of P/T in change in entropy equation we get:

dS=PdVT=nRdVV

The equation can be simplified as:

ΔS=nRln(V2V1)

Step2:

Entropy change for CO2 gas is calculated as:

Moles of CO2 ;

nR=PVT

Adding the values we get:

n=PVRT=1bar×0.7m38.314×105m3bar/Kmol×298K=28.25mol

Hence,

ΔS=nRln( V 2 V 1)=28.25mol×8.314J/K.molln(10.7)=83.75J/K

Step3:

Entropy change for N2 gas is calculated as.

Moles of N2;
n=PVRT

Adding the values we get:

n=PVRT=1bar×0.3m38.314×105m3bar/Kmol×298K=12.11mol

Hence,

ΔS=nRln( V 2 V 1)=12.11mol×8.314J/K.molln(10.3)=121.22J/K

Step4:

Total entropy change is calculated by adding the change in entropy for individual gases as follows:

ΔSTotal=ΔSCO2+ΔSN2=83.75J/K+121.22J/K=204.97J/K

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