Introduction to Chemical Engineering Thermodynamics
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: McGraw-Hill Education
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Chapter 7, Problem 7.10P
Interpretation Introduction

Interpretation:

The state of steam at the nozzle exit and the S˙G under the given conditions needs to be calculated

Concept Introduction:

  • The energy balance equation that relates the inlet and outlet enthalpies and velocities is given based on the first law of thermodynamics as:
  • (H1+ u 1 2 2)inlet(H2+ u 2 2 2)outlet(or)ΔH + Δu22 = 0 ----(1)

  • For an adiabatic process, there is no loss or gain of heat i.e. q = 0

    ΔS =qT + SGΔS=S2-S1 = SG-----(2)

The state of steam at exit is saturated steam with SG = 0.0616 Btu/lbm-R

Given Information:

Inlet pressure of steam, P1 = 130 psi

Inlet Temperature of steam T1= 420F0

Inlet velocity, u1 = 230 ft/s

Outlet pressure of steam, P2 = 35 psi

Inlet velocity, u2 = 2000 ft/s

Explanation:

Based on the steam tables, for inlet conditions: P1 = 130 psi, T1= 420F0

Specific enthalpy H1= 1233.6 Btu/lbm

Specific entropy, S1=1.6310 Btu/lbm-R

Step 1:

Calculate the enthalpy at exit, H2

Based on equation (1) we have:

H2H1 + u22u122 = 0 (H21233.6 Btu/lbm) =  (2000)2(230)22ft2/s2H21233.6 Btu/lbm = 1973550 ft2/s2×1 Btu/lbm25,037ft2/s2H2 = 1154.7 Btu/lbm

Step 2:

Calculate the final state entropy, S2

The exit temperature, T2corresponding to the exit pressure P2 = 35 psi and H2 = 1154.7 Btu/lbm, can be calculated to be around 235F0 .

The entropy at the outlet = S2 = 1.6926 Btu/lbm-R

Step 3: Calculate S˙G

Based on equation (2) we have:

SG = S2-S1=1.69261.6310=0.0616 Btu/lbm-R

Thus, the state of steam at exit is saturated steam with SG = 0.0616 Btu/lbm-R

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