QUESTION 2 Answer the questions asked using the following property table: Prandti No. Density (kg/m') AH Vap Liq Cp (k/kg-K) Liq 4.217 Viscosity (N-4/m') k (W/m-K) Vap Water Properties Amp (K) Temp (9) 273.15 275 280 285 290 295 300 Specific Vol (m'/kgl Liq 0.569 182E-O2 0.574 183E-02 0.582 186E-02 0.590 189E-02 0.598 1.93E-02 0.606 1.95E-02 Liq 12.99 12.22 10.26 Vap 0.815 0.817 0.825 0.833 Lig Vap Vap 1.854 1.750E-03 8.020E-O6 1.855 1.652E-03 8.090E-O6 1.858 1.422E-03 8.290E-06 1.861 1.225E-03 8.490E-O6 1864 1.08OE-03 8.690E-06 1.868 9.59OE-04 8.890E-06 1.872 8.55OE 04 9.090E-06 (kJ/kg) 2502 2497 2485 Lig 0.001 Vap 206.3 Vap 1000.0 0.00485 1000.0 4.211 0.0055 1000.0 0.00767 1000.0 0.01006 999.0 0.01435 998.0 0.01925 997.0 0.02556 995.0 0.03362 1.85 0.001 181.7 4.198 4.189 0.001 130.4 99.4 6.85 8.81 11.85 0.001 2473 7.56 0.841 2461 4.184 16.85 21.85 26.85 31.85 0.001 0.001 0.001 0.001 69.7 6.62 0.849 2449 2438 2426 51.94 4.181 0.613 196E-02 0.620 2.01E-02 5.83 0.857 39.13 29.74 4.179 4.178 1.877 7.690E-4 9.290E-06 5.2 0.865 305 (a) What is the Heat Capacity of liquid water in (kJ/kg-K) at 4.35°C? (b) How many times more viscous is a liquid phase relative to the vapor phase at 280K? Note: Calculate the ratio of the Liquid to Vapor values.

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
Problem 1.1P
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QUESTION 2
Answer the questions asked using the following property table:
Viscosity (N-s/m')
Vap
8.020E-06
Prandti No.
k (W/m-K)
Vap
Specific Vol (m'/kg)
Vap
206.3
181.7
Watar Properties
amp (K) Temp [C |
Density (kg/m)
AH Vap
(k/kg)
Cp (k/kg-K)
Vap
Vap
Liq
0.569 1.82E-02
0.574 183E-02
Liq
12.99
Lig
Lig
4.217
4.211
Liq
Vap
Liq
0.001
0.815
1.854 1.750E-03
1855 1.652E-03 8.090E-06
1858 1.422E-03 8.290E-06
1.861 1.225E-03 8.490E-06
1.864 1.080E-03 8.690E-06
9.590E-04 8.890E-06
8.550E-04 9.090E-06
1000.0 0,00485
1000.0
2502
273.15
275
280
285
290
12.22
0.817
0.0055
1000.0 0.00767
1000.0 0.01006
999.0 0.01435
998.0 0.01925
1.85
6.85
0.001
2497
0.582 186E-02
0.590 189E-02
0.598 1.93E-02
0.606 1.95E-02
0.613 196E-02
0.825
0.833
0.841
10.26
2485
2473
2461
0.001
130.4
4,198
881
11.85
0.001
99.4
4.189
7.56
16.85
0.001
69.7
4.184
0.849
0.857
0.865
6.62
2449
2438
4.181
1.868
0.001
0.001
295
21.85
51.94
997.0 0.02556
995.0 0.03362
4.179
4.178
5.83
5.2
1.872
300
305
39.13
29.74
26.85
2426
1.877 7.69OE-04
9.290E-06
0.620 2.01E-02
31.85
0.001
(a) What is the Heat Capacity of liquid water in (kJ/kg-K) at 4.35°C?
(b) How many times more viscous is a liquid phase relative to the vapor phase at 280K?
Note: Calculate the ratio of the Liquid to Vapor values.
Transcribed Image Text:QUESTION 2 Answer the questions asked using the following property table: Viscosity (N-s/m') Vap 8.020E-06 Prandti No. k (W/m-K) Vap Specific Vol (m'/kg) Vap 206.3 181.7 Watar Properties amp (K) Temp [C | Density (kg/m) AH Vap (k/kg) Cp (k/kg-K) Vap Vap Liq 0.569 1.82E-02 0.574 183E-02 Liq 12.99 Lig Lig 4.217 4.211 Liq Vap Liq 0.001 0.815 1.854 1.750E-03 1855 1.652E-03 8.090E-06 1858 1.422E-03 8.290E-06 1.861 1.225E-03 8.490E-06 1.864 1.080E-03 8.690E-06 9.590E-04 8.890E-06 8.550E-04 9.090E-06 1000.0 0,00485 1000.0 2502 273.15 275 280 285 290 12.22 0.817 0.0055 1000.0 0.00767 1000.0 0.01006 999.0 0.01435 998.0 0.01925 1.85 6.85 0.001 2497 0.582 186E-02 0.590 189E-02 0.598 1.93E-02 0.606 1.95E-02 0.613 196E-02 0.825 0.833 0.841 10.26 2485 2473 2461 0.001 130.4 4,198 881 11.85 0.001 99.4 4.189 7.56 16.85 0.001 69.7 4.184 0.849 0.857 0.865 6.62 2449 2438 4.181 1.868 0.001 0.001 295 21.85 51.94 997.0 0.02556 995.0 0.03362 4.179 4.178 5.83 5.2 1.872 300 305 39.13 29.74 26.85 2426 1.877 7.69OE-04 9.290E-06 0.620 2.01E-02 31.85 0.001 (a) What is the Heat Capacity of liquid water in (kJ/kg-K) at 4.35°C? (b) How many times more viscous is a liquid phase relative to the vapor phase at 280K? Note: Calculate the ratio of the Liquid to Vapor values.
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