Basic Mechanical Engineering (3110006)

BE | Semester-1   Summer-2019 | 04-06-2023

Q2) (c)

Three kg of steam at a pressure of 10 bar exists in the following conditions. Calculate its enthalpy and internal energy in each of the cases.
  1. Steam with x = 0.91
  2. Steam at temperature 200° C.

Given Data:
m = 3 kg
p = 10 bar = 1200 kPa
Cps = 2.1 kJkg K 
Case 1: Wet steam with x = 0.91
Case 2: Superheated steam at, Tsup = 200° C
 
Calculate:
hwet and uwet, when x = 0.91
hsup and usup, when Tsup = 200° C = 473 K
 
Solution:
From Steam Table at 10 bar pressure
tsat = 179.9 ° C = 452.9 K
hf = 762.6 kJkg
hfg = 2013.6 kJkg
hg = 2776.2 kJkg
vf = 0.001127  m3kg
vg = 0.18548  m3kg
Case 1: hwet and uwet, when x = 0.91
 
Enthalpy of wet steam is, hwet = hf + x hfg = 762.6 + 0.91 × 2013.6 = 2594.976  kJkg
 
For 3 kg of steam, hwet = 2594.976  kJkg × 3 kg = 7784.928 kJ
Case 2: hsup and usup, when Tsup = 200° C = 473 K
 
Enthaply of superheated steam is, hsup = hg + CpsTsup - Tsat = 2776.2 + 2.1 × 200 - 179.9 = 2818.41 kJkg
 
For 3 kg of steam, hsup = 2818.41  kJkg × 3 kg = 8455.23 kJ
Specific volume of superheated steam is, vsup = vg  Tsup Tsat = 0.18548 ×  553 452.9 = 0.2264 m3kg
 
Internal energy of superheated steam is, usup = hsup - p vsup = 2818.41 - 1000 × 0.2264 = 2592.01 kJkg
 
For 3 kg of steam, usup = 2592.01  kJkg × 3 kg = 7776.03 kJ

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