1 The following reaction reaches equilibrium at 500°C and 2 bar: 4HCl(g) + O2(g) → 2H2O(g)+2Cl2(g) If at the beginning of the reaction there are 5 moles of HCI and 1 mole of oxygen, determinecompositionat equilibrium. Assume an ideal gas. Data for reaction: H298(J/mol) = -114408 G298(J/mol) = -75948 B Cp/R A HCI 3,156 02 3,639 H₂O 3,470 4,442 0.623.10-3 0.506-10-3 1,450-10-3 0.089-10-3 D 0.151.105 - 0.227.105 0.121.105 - 0.344.105 Cl₂ Notes: Cp/R =A + B•T+DT-2 R = 8,314 J/mol.K

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
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1 The following reaction reaches equilibrium at 500°C and 2 bar:
4HCl(g) + O2(g) → 2H2O(g)+2Cl2(g)
If at the beginning of the reaction there are 5 moles of HCI and 1 mole of oxygen, determinecompositionat
equilibrium. Assume an ideal gas.
Data for reaction:
H298(J/mol) = -114408
G298(J/mol) = -75948
B
Cp/R A
HCI 3,156
02 3,639
H₂O 3,470
4,442
0.623.10-3
0.506-10-3
1,450-10-3
0.089-10-3
D
0.151.105
- 0.227.105
0.121.105
- 0.344.105
Cl₂
Notes:
Cp/R =A + B•T+DT-2
R
= 8,314 J/mol.K
Transcribed Image Text:1 The following reaction reaches equilibrium at 500°C and 2 bar: 4HCl(g) + O2(g) → 2H2O(g)+2Cl2(g) If at the beginning of the reaction there are 5 moles of HCI and 1 mole of oxygen, determinecompositionat equilibrium. Assume an ideal gas. Data for reaction: H298(J/mol) = -114408 G298(J/mol) = -75948 B Cp/R A HCI 3,156 02 3,639 H₂O 3,470 4,442 0.623.10-3 0.506-10-3 1,450-10-3 0.089-10-3 D 0.151.105 - 0.227.105 0.121.105 - 0.344.105 Cl₂ Notes: Cp/R =A + B•T+DT-2 R = 8,314 J/mol.K
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