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 7, Problem 7.35P
Interpretation Introduction

Interpretation:

To find final temperature, T

To find work required, W

Concept Introduction:

Methane:

Tc= 190.6 K

PC= 45.99 bar

ω=0.012

T0=308.15 K

P0=3500 kPa

P=5500 kPa

For isenthalpic process, ΔS=0

For the heat/capacity of Methane:

A=1.702

B=9.081×103K1

C=2.164×106.K2

Use generalized second-virial correlation:

The entropy change is given by

ΔS=T1T2CPigdTTR.ln(P2P1)+S2RS1R Combined with

  T0TCPRdTT=A.lnτ+[BT0+(CT02+Dτ2T02)(τ+1τ)](τ1) ; D = 0;

We know that

   ΔS=R.[A.ln(τ)+[B.T0+C.T02.(τ+12)].(τ1)lnPP0...]+SRB(τT0TC,ωPr)SRB(Tr0,ωPr0)

ΔH=R.[A.T0.(τ1)+B2.T02.(τ21)+C3T03.(τ31)...+Tc.(HRB( τ. T 0 T c ,ωP r,)HRB(Tr0,ωPr0,))]

ΔH=R.[A.T0(τ1)+B2T02(τ21)+C3T03(τ31)+DT0(τ1τ)]=R×ICPH(T0,T,A,B,C,D)

SRR=Pr[0.675Tr2.6+ω(0.722Tr5.2)]=SRB(Tr,ωPr)

HRRTC=Pr[0.0831.097Tr1.6+ω(0.1390.894Tr4.2)]=HRB(TrωPr)

Where,

ΔS = Change in Entropy

Cp = Molar heat capacity

R = Universal Gas Constant

T0= Initial given temperature = 308.15 K

P0 = Initial given Pressure = 3500 kPa

P2 = Final Given Pressure = 5500 kPa

η = Given efficiency = 0.78

A, B, C, D = Constants for heat capacity of air

A = 1.702

B = 9.081 x 10-3 K-1

C = -2.164 x 10-6 K-2

D = 0

ΔH = Actual Change in Enthalpy

ΔHig = Ideal Gas Change in Enthalpy

W = Power required of the compressor

Tc= Critical Temperature = 190.6 K

Pc = Critical Pressure = 45.99 bar

  ω = 0.012

m = 1500 mol/sec

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